Lithium cobalt oxides and methods of making same

ABSTRACT

The present invention includes lithium cobalt oxides having hexagonal layered crystal structures and methods of making same. The lithium cobalt oxides of the invention have the formula Li w Co 1−x A x O 2+y  wherein 0.96≦w≦1.05, 0≦x≦0.05, −0.02≦y≦0.02 and A is one or more dopants. The lithium cobalt oxides of the invention preferably have a position within the principal component space defined by the relationship ax i +by i ≦c, wherein x i ={right arrow over (S)} i {right arrow over (P)} c1 ; y i ={right arrow over (S)} i {right arrow over (P)} c2 ; the vector {right arrow over (S)} i  is the x-ray spectrum for the Li w Co 1−x A x O 2+y  compound; the vectors {right arrow over (P)} c1  and {right arrow over (P)} c2  defining the principal component space are determined by measuring the x-ray powder diffraction values {right arrow over (S)} i  between 15° and 120° using a 0.02° step size and CuKα rays for a large sample set of lithium cobalt oxides and using the regression of {right arrow over (S)} i  of the sample set against the capacity fade after 50 cycles of a lithium coin cell that includes a lithium negative electrode and the lithium cobalt oxide as the positive electrode material and that is cycled between 3.0 and 4.3V at a constant current of C/3 during both charge and discharge cycles; and the values a, b and c are determined by using only the x i  and y i  values for Li w Co 1−x A x O 2+y  compounds in the sample set that have a capacity fade after 50 cycles of less than or equal to 15%.

CROSS REFERENCE TO RELATED APPLICATIONS

[0001] This application claims the benefit of U.S. ProvisionalApplication No. 60/170,221, filed Dec. 10, 1999.

FIELD OF THE INVENTION

[0002] The present invention relates to lithium cobalt oxides for use aspositive electrode materials for rechargeable lithium and lithium-ionsecondary batteries, and to methods of making lithium cobalt oxides.

BACKGROUND OF THE INVENTION

[0003] LiCoO₂ is currently being used in over 95% of commercial lithiumand lithium-ion secondary batteries as the active positive electrodematerial. The current production rate of lithium and lithium-ionbatteries is about 30 million units per month with each unit containingabout 10-15 g of LiCoO₂ (i.e., 300-450 metric tons/month).

[0004] LiCoO₂ can be made by a number of different methods by reacting alithium salt and a cobalt salt. However, these methods often involvelengthy reaction times thereby reducing the rate of LiCoO₂ production.

[0005] Therefore, there is a need in the art to provide a method ofpreparing LiCoO₂ that demonstrates good performance in rechargeablelithium and lithium-ion secondary batteries and that can be producedwith a relatively short reaction time.

SUMMARY OF THE INVENTION

[0006] The present invention includes lithium cobalt oxides havinghexagonal layered crystal structures and methods of making same. Thelithium cobalt oxides of the invention have the formulaLi_(w)Co_(1−x)A_(x)O_(2+y) wherein 0.96≦w≦1.05, 0≦x≦0.05, −0.02≦y≦0.02and A is one or more dopants. Preferably, 0.98≦w≦1.02 and 0≦x≦0.02.

[0007] The lithium cobalt oxides of the invention preferably have aposition within the principal component space defined by the followingrelationship:

ax _(i) +by _(i) ≦c

[0008] wherein x_(i)={right arrow over (S)}_(i){right arrow over(P)}_(c1); y_(i)={right arrow over (S)}_(i){right arrow over (P)}_(c2);the vector {right arrow over (S)}_(i) is the x-ray spectrum for theLi_(w)Co_(1−x)A_(x)O_(2+y) compound; the vectors {right arrow over(P)}_(c1) and {right arrow over (P)}_(c2) are determined by measuringthe x-ray powder diffraction values {right arrow over (S)}_(i) between15° and 120° using a 0.020 step size and CuKα rays for a large sampleset of lithium cobalt oxides and using the regression of {right arrowover (S)}_(i) of the sample set against the capacity fade after 50cycles of a lithium coin cell that includes a lithium negative electrodeand the lithium cobalt oxide as the positive electrode material and thatis cycled between 3.0 and 4.3V at a constant current of C/3 during bothcharge and discharge cycles; and the values a, b and c are determined byusing only the x_(i) and y_(i) values for Li_(w)Co_(1−x)A_(x)O_(2+y)compounds in the sample set that have a capacity fade after 50 cycles ofless than or equal to 15%.

[0009] More preferably, the lithium cobalt oxides of the invention havea position within the principal component space defined by the followingrelationship:

x _(i)+0.77y _(i)≦−6

[0010] wherein x_(i)={right arrow over (S)}_(i){right arrow over(P)}_(c1); y_(i)={right arrow over (S)}_(i){right arrow over (P)}_(c2);{right arrow over (S)}_(i) is the x-ray spectrum for theLi_(w)Co_(1−x)A_(x)O_(2+y) compound; and {right arrow over (P)}_(c1) and{right arrow over (P)}_(c2) are determined by measuring the x-ray powderdiffraction values sh between 15° and 120° using a 0.020 step size andCuKα rays for a large sample set of lithium cobalt oxides and using thepartial least squares regression (PLSR) of {right arrow over (S)}_(i) ofthe sample set against the capacity fade after 50 cycles of a lithiumcoin cell that includes a lithium negative electrode and the lithiumcobalt oxide as the positive electrode material and that is cycledbetween 3.0 and 4.3V at a constant current of C/3 during both charge anddischarge cycles. For example, {right arrow over (P)}_(c1) and {rightarrow over (P)}_(c2) can be defined by the coefficients provided inTable 1 (wherein 2θ is the scattering angle of x-ray powder diffractionmeasurements using CuKα rays).

[0011] The lithium cobalt oxides of the invention can be used in thepositive electrode of a rechargeable lithium or lithium-ion secondarybattery in accordance with the invention. For the lithium cobalt oxidesof the invention, the capacity fade of a lithium coin cell having alithium negative electrode and using the lithium cobalt oxide as thepositive electrode material when cycled between 3.0 and 4.3V at aconstant current of C/3 during both charge and discharge cycles after 50charge/discharge cycles is preferably less than or equal to 15%, morepreferably less than or equal to 10%. Moreover, the initial specificdischarge capacity is preferably greater than or equal to 154 mAh/g.

[0012] The lithium cobalt oxides of the invention are prepared byheating a lithium source compound, a cobalt source compound andoptionally one or more source compounds that include dopants A at atemperature below about 850° C. to produce Li_(w)Co_(1−x)A_(x)O_(2+y)and heating the Li_(w)Co_(1−x)A_(x)O_(2+y) compound at a temperaturefrom about 900° C. and 1000° C. to form and enhance the hexagonallayered crystal structure of the Li_(w)Co_(1−x)A_(x)O_(2+y) compound.The temperature in the first heating step is preferably from about 500°C. to about 850° C. and the temperature in the second heating step ispreferably from about 950° C. to about 980° C. The source compounds inthe first heating step can be heated at more than one temperature belowabout 850° C. In addition, the Li_(w)Co_(1−x)A_(x)O_(2+y) compound inthe second heating step can be heated at more than one temperature fromabout 900° C. to about 1000° C. Preferably, the first heating stepcomprises heating the source compounds for a period of time of fromabout 30 minutes to about 3 hours and the second heating step comprisesheating the source compounds for a period of time of from about 30minutes to about 7 hours. The lithium source compound preferably usedwith the invention is selected from the group consisting of Li₂CO₃ andLiOH and the cobalt source compound is preferably selected from thegroup consisting of Co₃O₄ and Co(OH)₂. The lithium cobalt oxide ispreferably cooled after the heating steps at a rate of from 8° C./min to140° C./min, more preferably from 10° C./min to 100° C./min.

[0013] The present invention further includes a method of analyzing acompound to determine if the compound is suitable for use as the activepositive electrode material in a lithium or lithium-ion secondarybattery. The method of the invention comprises determining a principalcomponent space defined by the relationship ax_(i)+by_(i)≦c, whereinx_(i)={right arrow over (S)}_(i){right arrow over (P)}_(c1);y_(i)={right arrow over (S)}_(i){right arrow over (P)}_(c2); the vector{right arrow over (S)}_(i) is the x-ray spectrum for the compound; thevectors {right arrow over (P)}_(c1) and {right arrow over (P)}_(c2) aredetermined by measuring the x-ray powder diffraction values {right arrowover (S)}_(i) for a predetermined range of 2θ values using apredetermined step size by sampling a plurality of samples of compoundshaving the same general formula as the compound and using the regressionof {right arrow over (S)}_(i) of the sample set against predeterminedbattery performance data for the samples by incorporating the samples asthe positive electrode active material in a lithium or lithium-ionsecondary battery. The x_(i) and y_(i) values for the compounds in thesample set that have the predetermined battery performance data are thenused to determine a, b and c. The compound is analyzed by measuring thex-ray diffraction spectra for the compound to obtain x and y values anddetermining whether the x and y values meet the relationshipax_(i)+by_(i)≦c and thus whether the compound possesses the batteryperformance and x-ray diffraction spectra suitable for use as the activepositive electrode material.

[0014] The lithium cobalt oxides of the invention have good cycleabilityproperties including good initial specific capacities and capacity fadesand thus are desirable for use in rechargeable lithium and lithium-ionbatteries. In addition, the lithium cobalt oxides of the presentinvention can be produced quickly in less than 10 hours and thus can beproduced at a rate desired in the art.

[0015] These and other features and advantages of the present inventionwill become more readily apparent to those skilled in the art uponconsideration of the following detailed description, which describesboth the preferred and alternative embodiments of the present invention.

BRIEF DESCRIPTION OF THE DRAWINGS

[0016]FIG. 1 illustrates the positions of several samples in a principalcomponent space as defined by the axes {right arrow over (P)}_(c1) and{right arrow over (P)}_(c2) with the dotted line representing x+0.77y=−6in accordance with a preferred embodiment of the invention.

[0017]FIG. 2 illustrates the capacity fade after 50 cycles versusx+0.77y with the dotted line defining the principal component space ofthe samples of the invention having the desired x-ray powder diffractionvalues and a fade of less than or equal to 15% in accordance with apreferred embodiment of the invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS OF THE INVENTION

[0018] In the following detailed description, preferred embodiments aredescribed in detail to enable practice of the invention. Although theinvention is described with reference to these specific preferredembodiments, it will be understood that the invention is not limited tothese preferred embodiments. But to the contrary, the invention includesnumerous alternatives, modifications and equivalents as will becomeapparent from consideration of the following detailed description andaccompanying drawings.

[0019] The present invention is directed to lithium cobalt oxides havingthe formula Li_(w)Co_(1−x)A_(x)O_(2+y) wherein 0.96≦w≦1.05, 0≦x≦0.05,−0.02≦y≦0.02 and A is one or more dopants. Preferably, 0.98≦w≦1.02 and0≦x≦0.02. The dopants A are elements other than Co including metals andnon-metals such as Ni, Mn, Ti, Zr, V, Mo, Mg, Ca, Sr, Ba, Al, Ga, Si,Ge, Sn, and combinations thereof. Preferably, the dopants A are selectedto produce an oxidation state N wherein +2.5≦N≦+3.5, and preferably N isabout 3. The average oxidation state N is based on the molar amounts ofthe dopants used and the valences of the dopants used. For example, ifthe dopants are 40% Ti⁴⁺ and 60% Mg²⁺, on a molar basis, the averageoxidation state N would be (0.4)(+4)+(0.6)(+2)=+2.8.

[0020] The lithium cobalt oxides of the invention have a hexagonallayered crystal structure that is substantially single-phase andsubstantially free of localized cubic spinel-like structural phases onthe surface of the crystal or within the crystal. The substantiallysingle-phase, hexagonal layered structures of the compounds of theinvention can be characterized, for example, by their powder x-raydiffraction patterns.

[0021] The lithium cobalt oxides of the present invention preferablyhave an initial specific discharge capacity of greater than or equal to154 mAh/g and a capacity fade after 50 cycles of less than or equal to15%. Specifically, when the lithium cobalt oxides are used as thepositive electrode material in a lithium coin cell having a lithiumnegative electrode and the cell is cycled between 3.0 and 4.3V at aconstant current of C/3 (3 hours for complete charge or discharge)during both the charge and discharge cycles, the cells have a capacityfade of less than or equal to 15% after 50 charge/discharge cycles. Inthese coin cells, NRC 2325 coin cell hardware and Celgard 3501separators can be used. The electrolyte is typically 1M LiPF₆ in a 50:50mixture of ethylene carbonate and dimethyl carbonate solvents. Inaddition, the positive electrode consists generally of 85% activematerial (by weight), 10% super S™ carbon black and 5% polyvinylidenefluoride (PVDF) as a binder polymer, coated on aluminum foil.

[0022] The lithium cobalt oxides of the invention have a capacity fadeof less than or equal to 15% after 50 cycles and can also becharacterized by their x-ray powder diffraction patterns, which describethe crystal properties of the lithium cobalt oxides. In particular, thelithium cobalt oxides of the invention can be characterized by theirpositions in a principal component space determined by conductingprincipal component analysis of x-ray powder diffraction spectra between15° and 120° using a 0.02° step size and CuKα rays. In the principalcomponent analysis, each x-ray spectrum is treated as a vector {rightarrow over (S)}_(i).

[0023] It has been discovered using this principal component analysisthat the crystal properties that are important to the rechargeablelithium battery performance can be described in the space definedgenerally by two vectors, namely, principal components {right arrow over(P)}_(c1) and {right arrow over (P)}_(c2). These two vectors arepreferably determined by using the partial least squares regression of{right arrow over (S)}_(i) of a large sample set against the batteryperformance of the sample. This sample set includes lithium cobaltoxides having a capacity fade of less than or equal to 15% and lithiumcobalt oxides having a capacity fade of greater than 15%.

[0024] The principal component space that includes the compounds of theinvention having a capacity fade of less than or equal to 15% can bedefined by the following relationship:

ax _(i) +by _(i) ≦c

[0025] wherein x_(i)={right arrow over (S)}_(i){right arrow over(P)}_(c1) (i.e. the projection of {right arrow over (S)}_(i) onto {rightarrow over (P)}_(c1)); y_(i)={right arrow over (S)}_(i){right arrowover (P)}_(c2) (i.e. the projection of {right arrow over (S)}_(i) onto{right arrow over (P)}_(c2) ); the vector {right arrow over (S)}_(i) isthe x-ray spectrum for the Li_(w)Co_(1−x)A_(x)O_(2+y) compound. Thevectors {right arrow over (P)}_(c1) and {right arrow over (P)}_(c2)defining the principal component space can be determined by measuringthe x-ray powder diffraction values {right arrow over (S)}_(i) between15° and 120° using a 0.02° step size and CuKα rays for a large sampleset of lithium cobalt oxides and using the regression of {right arrowover (S)}_(i) of the sample set against the capacity fade after 50cycles of a lithium coin cell that includes a lithium negative electrodeand the lithium cobalt oxide as the positive electrode material and thatis cycled between 3.0 and 4.3V at a constant current of C/3 during bothcharge and discharge cycles. The values a, b and c of the aboverelationship can then be determined by using the x_(i) and y_(i) valuesfor Li_(w)Co_(1−x)A_(x)O_(2+y) compounds in the sample set that have acapacity fade after 50 cycles of less than equal to 15%, i.e., theLi_(w)Co_(1−x)A_(x)O_(2+y) compounds prepared according to theinvention.

[0026] The vector {right arrow over (S)}_(i) is the x-ray diffractionspectrum of the ith sample and can be written as${\overset{\rightarrow}{S}}_{i} = \begin{pmatrix}\vdots \\s_{ij} \\\vdots\end{pmatrix}$

[0027] where the element S_(ij) is the jth data point in the x-raydiffraction spectrum. In a partial least squares regression, the vector{right arrow over (S)}_(i) is autoscaled before the regression takesplace. The autoscaling of {right arrow over (S)}_(i) is defined by$\overset{\rightarrow}{S_{i}^{as}} = \begin{pmatrix}\vdots \\s_{ij}^{as} \\\vdots\end{pmatrix}$

[0028] where the autoscaled element$s_{ij}^{as} = \frac{s_{ij} - {\overset{\_}{s}}_{j}}{\left( {\frac{1}{n - 1}{\overset{n}{\sum\limits_{i}}\left( {s_{ij} - {\overset{\_}{s}}_{j}} \right)^{2}}} \right)^{1/2}}$

[0029] and {overscore (s)}_(j) is the mean of s_(ij).

[0030] In the preferred embodiment of the invention, the regression iscarried out with the commercial software Pirouette 2.7 available fromInfometrix Inc., and the details of the matrix bidiagonalizationalgorithm is described in R. Manne, “Analysis of two partial leastsquares algorithms for multivariate calibration”, Chemom. Intell. Lab.Syst. 2, 187-197 (1987).

[0031] In accordance with a preferred embodiment of the invention, byusing principal component analysis, the lithium cobalt oxides of theinvention have a position within the principal component space definedby the following relationship:

x _(i)+0.77y _(i)≦−6

[0032] wherein x_(i)={right arrow over (S)}_(i){right arrow over(P)}_(c1); y_(i)={right arrow over (S)}_(i){right arrow over (P)}_(c2);{right arrow over (S)}_(i) is the x-ray spectrum for theLi_(w)Co_(1−x)A_(x)O_(2+y) compound; and {right arrow over (P)}_(c1) and{right arrow over (P)}_(c2) are determined by measuring the x-ray powderdiffraction values {right arrow over (S)}_(i) between 15° and 120° usinga 0.02° step size and CuKα rays for a large sample set of lithium cobaltoxides and using the partial least squares regression (PLSR) of {rightarrow over (S)}_(i) of the sample set against the capacity fade after 50cycles of a lithium coin cell that includes a lithium negative electrodeand the lithium cobalt oxide as the positive electrode material and thatis cycled between 3.0 and 4.3V at a constant current of C/3 during bothcharge and discharge cycles. In particular, the vectors {right arrowover (P)}_(c1) and {right arrow over (P)}_(c2) can be defined by thecoefficients provided in Table 1 below (wherein 2θ is the scatteringangle for the x-ray powder diffraction measurements using CuKα rays).These measurements where obtained using a Rigaku RINT-2000 unit thatincludes a graphite monochrometer, a rotating anode x-ray source havinga current of 150 mA and a voltage of 50 kV, anti-scattering slits set at0.50, and anti-divergence slits set at 0.5°. Alternative x-raydiffraction apparatus can also be used that produce comparablemeasurements to those produced with the above equipment and parameters.TABLE 1 Coefficients of Coefficients of Coefficients of PrincipalPrincipal Principal Components Components Components 2θ (°) P_(c1)P_(c2) 2θ (°) P_(c1) P_(c2) 2θ (°) P_(c1) P_(c2) 15 −0.013790 0.01172315.8 0.01031 0.017391 16.6 −0.02828 −0.00285 15.02 −0.02049 0.00508615.82 −0.01997 −0.00295 16.62 −0.01588 0.006001 15.04 0.006858 0.02037615.84 −0.01823 0.006279 16.64 −0.01989 −0.00238 15.06 −0.00273 0.01349215.86 −0.00796 0.011133 16.66 −0.02108 0.008733 15.08 −0.01666 0.00075315.88 −0.02731 0.001556 16.68 −0.01442 0.008242 15.1 0.000904 0.01615515.9 0.008318 0.01921 16.7 −0.00424 0.017365 15.12 −0.02289 0.00147115.92 −0.0037 0.014344 16.72 −0.01095 0.007871 15.14 0.018222 0.02019115.94 0.007567 0.02072 16.74 −0.00145 0.015669 15.16 −0.00612 0.01768415.96 −0.02027 0.003245 16.76 −0.01792 0.005363 15.18 −0.01378 0.00820215.98 −0.01705 0.007303 16.78 0.009292 0.023795 15.2 −0.0095 0.014128 16−0.01747 0.00762 16.8 −0.00379 0.015671 15.22 −0.00584 0.010502 16.02−0.0059 0.013742 16.82 −0.01185 0.007864 15.24 −0.00241 0.014185 16.04−0.02571 0.000434 16.84 −0.01481 0.001576 15.26 −0.0042 0.014822 16.060.00123 0.015174 16.86 −0.00946 0.009989 15.28 −0.00359 0.010447 16.08−0.02673 0.00081 16.88 −0.00497 0.015388 15.3 −0.01418 0.009492 16.10.000934 0.018006 16.9 −0.00746 0.01278 15.32 −0.01268 0.006936 16.120.017173 0.026867 16.92 −0.03313 −0.00509 15.34 −0.01096 0.001104 16.14−0.0108 0.007938 16.94 −0.01766 0.002109 15.36 −0.00484 0.013178 16.16−0.00499 0.020462 16.96 −0.00494 0.01206 15.38 −0.02337 −0.00186 16.18−0.00362 0.016295 16.98 −0.00709 0.017855 15.4 −0.0185 0.005159 16.2−0.00302 0.013994 17 −0.01431 0.006401 15.42 −0.01369 0.007337 16.22−0.01649 0.005174 17.02 −0.01241 0.00343 15.44 −0.00748 0.015817 16.240.002657 0.011788 17.04 −0.02585 −0.00416 15.46 −0.00627 0.009999 16.26−0.01986 −0.0036 17.06 −0.00734 0.00579 15.48 0.002923 0.016611 16.28−0.01192 0.004226 17.08 −0.03602 −0.00662 15.5 −0.0327 −0.00277 16.3−0.0216 0.002932 17.1 −0.00885 0.012849 15.52 −0.00977 0.009888 16.32−0.03076 0.000359 17.12 −0.02162 0.003466 15.54 −0.01803 0.005404 16.34−0.01702 0.005958 17.14 −0.01382 0.007276 15.56 −0.0272 −0.00066 16.36−0.02097 0.004851 17.16 0.002953 0.018335 15.58 −0.01839 0.006056 16.38−0.01344 0.012995 17.18 0.006901 0.019663 15.6 −0.0327 0.000501 16.4−0.01126 0.013165 17.2 −0.00352 0.020061 15.62 0.001235 0.010506 16.420.001416 0.0201 17.22 −0.02859 0.0027 15.64 0.004628 0.021154 16.440.025535 0.029834 17.24 −0.01144 0.012464 15.66 −0.01218 0.011076 16.46−0.01265 0.005022 17.26 −0.03014 −0.00211 15.68 −0.01306 0.005821 16.48−0.01707 0.005082 17.28 −0.0056 0.008632 15.7 0.017059 0.026611 16.50.005849 0.023367 17.3 −0.02932 0.000458 15.72 −0.00215 0.017464 16.520.003071 0.01825 17.32 −0.01885 0.006068 15.74 −0.0196 0.00594 16.54−0.03934 −0.00869 17.34 −0.01338 0.009713 15.76 −0.00819 0.015374 16.56−0.01295 0.008321 17.36 −0.01327 0.004136 15.78 −0.00688 0.011794 16.58−0.00574 0.015581 17.38 −0.00626 0.012486 17.4 0.002288 0.017792 18.240.001908 0.025647 19.08 −0.01074 −0.02421 17.42 −0.00633 0.012048 18.26−0.00583 0.022761 19.1 −0.01258 −0.02395 17.44 −0.02932 −0.00294 18.280.00156 0.024646 19.12 −0.01098 −0.02261 17.46 −0.00039 0.014183 18.3−0.00703 0.021783 19.14 −0.00698 −0.01835 17.48 −0.01081 0.008801 18.32−0.00067 0.027247 19.16 −0.00141 −0.01051 17.5 −0.02267 −0.00304 18.34−0.01602 0.016852 19.18 −0.00059 −0.00635 17.52 0.003663 0.017713 18.36−0.01335 0.020628 19.2 −0.00516 −0.00579 17.54 −0.02049 0.000378 18.38−0.01909 0.01856 19.22 −0.01103 −0.00632 17.56 0.0067 0.021219 18.4−0.02006 0.015536 19.24 −0.01105 −0.0089 17.58 −0.01785 0.002949 18.42−0.02351 0.014997 19.26 −0.00862 −0.0063 17.6 0.001532 0.017236 18.44−0.02153 0.017015 19.28 0.001626 0.001747 17.62 −0.01238 0.007066 18.46−0.0188 0.017999 19.3 0.002138 0.004458 17.64 0.003693 0.012661 18.48−0.01399 0.020999 19.32 0.009506 0.005949 17.66 −0.01064 0.009715 18.5−0.01053 0.02539 19.34 −0.02337 −0.00964 17.68 −0.0185 0.00766 18.52−0.00807 0.025661 19.36 −0.00841 0.004954 17.7 −0.00282 0.013796 18.54−0.01182 0.02357 19.38 −0.00834 −0.0036 17.72 −0.01224 0.007896 18.56−0.01555 0.022593 19.4 −0.01069 0.001743 17.74 −0.03033 0.001698 18.58−0.01783 0.020098 19.42 −0.01694 −0.00205 17.76 −0.00672 0.014106 18.6−0.01662 0.02401 19.44 −0.00984 0.002493 17.78 −0.00992 0.012609 18.62−0.01523 0.024262 19.46 0.001291 0.010088 17.8 −0.02352 −0.0001 18.64−0.01423 0.026318 19.48 −0.00713 0.004186 17.82 −0.01922 0.004327 18.66−0.01205 0.026828 19.5 −0.01293 0.004569 17.84 −0.03537 −0.00201 18.68−0.00672 0.029541 19.52 −0.00902 0.005117 17.86 −0.00691 0.014539 18.7−0.00607 0.028658 19.54 −0.02137 0.000343 17.88 −0.00823 0.010325 18.72−0.00782 0.027355 19.56 −0.02552 0.000334 17.9 −0.01341 0.01078 18.74−0.00921 0.026907 19.58 −0.00517 0.011511 17.92 0 0.013573 18.76−0.01379 0.023838 19.6 −0.0205 0.00186 17.94 −0.01114 0.009463 18.78−0.01457 0.023663 19.62 −0.0191 0.001679 17.96 −0.00572 0.008522 18.8−0.01132 0.025623 19.64 −0.01089 0.005838 17.98 −0.02047 0.006135 18.82−0.00952 0.026797 19.66 −0.0001 0.010501 18 −0.01031 0.010396 18.84−0.00795 0.026828 19.68 −0.02876 −0.004 18.02 −0.00853 0.011528 18.86−0.00768 0.02646 19.7 −0.01223 0.010851 18.04 −0.00317 0.013069 18.88−0.01061 0.024087 19.72 −0.01543 0.005512 18.06 −0.01715 0.00713 18.9−0.01522 0.015187 19.74 −0.01617 0.006606 18.08 −0.00062 0.020628 18.92−0.01149 −0.00123 19.76 −0.01698 0.005792 18.1 −0.00577 0.02002 18.94−0.003 −0.01538 19.78 0.000875 0.010478 18.12 −0.02559 0.008019 18.960.004311 −0.01926 19.8 −0.0166 0.003613 18.14 −0.01586 0.015835 18.980.005713 −0.02314 19.82 −0.02856 −0.00269 18.16 0.000448 0.021869 190.005803 −0.02582 19.84 −0.01593 0.003634 18.18 −0.00187 0.022937 19.020.004528 −0.02683 19.86 −0.01928 0.005582 18.2 −0.00621 0.022318 19.040.001276 −0.02729 19.88 −0.01384 0.008353 18.22 −0.01021 0.016616 19.06−0.00563 −0.02604 19.9 −0.01143 0.012236 19.92 −0.01117 0.009301 20.76−0.01471 0.010765 21.6 −0.01453 0.004601 19.94 −0.01072 0.014167 20.78−0.02638 −0.00098 21.62 −0.01533 0.006452 19.96 −0.01646 0.007919 20.80.006671 0.02015 21.64 −0.00605 0.01121 19.98 −0.00695 0.013766 20.82−0.03128 −0.00559 21.66 −0.01616 0.009162 20 0.006355 0.018345 20.84−0.02993 −0.00403 21.68 −0.00818 0.008133 20.02 −0.00883 0.009009 20.86−0.01388 0.00209 21.7 −0.00971 0.006333 20.04 −0.00965 0.005404 20.88−0.0082 0.013714 21.72 −0.02006 0.000296 20.06 0.000385 0.012962 20.9−0.01175 0.006298 21.74 −0.02026 0.005953 20.08 −0.03577 −0.00701 20.92−0.02048 0.008478 21.76 −0.01312 0.001919 20.1 −0.00795 0.012584 20.94−0.00671 0.009965 21.78 −0.01507 0.005368 20.12 −0.01401 0.008024 20.96−0.00476 0.011583 21.8 0.014438 0.024978 20.14 −0.01207 0.003991 20.980.005786 0.01745 21.82 −0.02003 0.005478 20.16 −0.01908 0.006955 21−0.01335 0.008671 21.84 −0.00485 0.010235 20.18 −0.00427 0.012219 21.02−0.02061 0.000548 21.86 −0.01712 0.0038 20.2 −0.00489 0.013939 21.040.001174 0.015385 21.88 −0.02135 −0.00073 20.22 −0.00836 0.007352 21.06−0.01389 0.010398 21.9 −0.00265 0.013177 20.24 −0.00177 0.016009 21.08−0.00554 0.013933 21.92 −0.00148 0.015218 20.26 −0.02499 −0.00274 21.10.015595 0.019572 21.94 −0.02628 0.002951 20.28 −0.02213 0.004903 21.12−0.0099 0.006623 21.96 0.005492 0.025542 20.3 0.010213 0.016127 21.14−0.02205 0.000077 21.98 0.004907 0.018044 20.32 −0.01616 −0.00078 21.16−0.01727 0.007892 22 −0.01045 0.004247 20.34 −0.00898 0.0129 21.180.005269 0.017743 22.02 −0.01846 0.005301 20.36 −0.00825 0.012261 21.2−0.00134 0.013589 22.04 0.00628 0.016218 20.38 −0.01249 0.011253 21.22−0.0025 0.011282 22.06 −0.01848 0.005893 20.4 0.018624 0.026772 21.240.002829 0.022534 22.08 −0.02252 0.005295 20.42 −0.02392 0.002221 21.26−0.0005 0.01618 22.1 −0.03302 0.002246 20.44 −0.00965 0.010164 21.28−0.03348 −0.00683 22.12 −0.02128 −0.00092 20.46 −0.03013 −0.00043 21.30.030437 0.029966 22.14 −0.02499 0.001116 20.48 −0.02063 0.003867 21.320.005396 0.016311 22.16 −0.02249 −0.00212 20.5 −0.0043 0.008775 21.340.015538 0.026089 22.18 −0.02014 0.004931 20.52 −0.00782 0.008298 21.360.012517 0.019858 22.2 −0.02813 0.001388 20.54 −0.00894 0.011756 21.38−0.0037 0.01472 22.22 −0.00866 0.012586 20.56 0.001089 0.009437 21.40.004328 0.017924 22.24 −0.01909 0.001292 20.58 −0.00917 0.008298 21.42−0.01284 0.006399 22.26 −0.01945 0.005159 20.6 −0.0232 0.001626 21.44−0.00354 0.013166 22.28 −0.02593 −0.00321 20.62 0.004427 0.014517 21.46−0.00175 0.015049 22.3 −0.02255 0.000552 20.64 0.002383 0.017477 21.480.004041 0.016107 22.32 −0.0129 0.007749 20.66 −0.00285 0.014939 21.5−0.02468 −0.00119 22.34 −0.01307 0.00804 20.68 0.00623 0.016666 21.520.005123 0.018735 22.36 0.002625 0.015573 20.7 −0.02066 0.001616 21.54−0.01918 0.010905 22.38 −0.0248 −0.00259 20.72 0.010311 0.021438 21.560.005962 0.021907 22.4 −0.0077 0.013756 20.74 −0.00119 0.014322 21.58−0.02169 0.004094 22.42 0.007884 0.017561 22.44 −0.02733 0.001639 23.28−0.01692 0.000941 24.12 −0.03088 −0.00252 22.46 −0.0238 0.000782 23.3−0.01316 0.011169 24.14 −0.00316 0.016163 22.48 −0.02771 −0.00575 23.320.00768 0.017913 24.16 −0.01106 0.003245 22.5 −0.00173 0.010043 23.34−0.00399 0.008139 24.18 −0.02806 0.002902 22.52 −0.01257 0.007468 23.36−0.00279 0.015257 24.2 −0.01107 0.010105 22.54 −0.01333 0.00685 23.380.00113 0.015766 24.22 0.019514 0.023807 22.56 0.000981 0.010458 23.4−0.01746 0.000192 24.24 −0.00982 0.00959 22.58 0.006026 0.00766 23.42−0.00605 0.005438 24.26 −0.00739 0.006958 22.6 −0.01638 0.010483 23.440.017311 0.025726 24.28 0.002216 0.01775 22.62 −0.00178 0.013553 23.46−0.01267 0.007595 24.3 −0.017 0.003388 22.64 −0.01872 0.003838 23.48−0.02628 −0.00073 24.32 −0.01556 0.008514 22.66 0.003747 0.014632 23.5−0.0217 −0.00025 24.34 −0.00748 0.00848 22.68 −0.00616 0.008485 23.52−0.01736 0.00098 24.36 −0.00119 0.013486 22.7 −0.00303 0.013119 23.54−0.01547 0.003639 24.38 −0.00266 0.015186 22.72 −0.02635 −0.00475 23.56−0.00221 0.010407 24.4 −0.02027 0.004786 22.74 −0.00408 0.013397 23.58−0.01061 0.010618 24.42 −0.01667 0.006745 22.76 −0.02269 −0.00358 23.6−0.01905 0.004317 24.44 0.001616 0.012179 22.78 −0.00538 0.010801 23.62−0.01225 0.006182 24.46 −0.01296 0.00123 22.8 −0.00284 0.012983 23.64−0.021 −0.00098 24.48 −0.00333 0.009445 22.82 −0.01679 0.003658 23.66−0.02283 0.001196 24.5 −0.01842 0.006243 22.84 0.008846 0.021592 23.68−0.0178 0.007563 24.52 0.009181 0.018398 22.86 −0.00917 0.00799 23.7−0.01597 0.002931 24.54 0.003746 0.021953 22.88 −0.00562 0.013578 23.72−0.02643 0.002642 24.56 0.001696 0.01495 22.9 −0.01283 0.007419 23.74−0.00702 0.003834 24.58 −0.00925 0.008476 22.92 −0.00626 0.013858 23.760.001378 0.01575 24.6 −0.00571 0.005147 22.94 −0.00926 0.008358 23.78−0.022 0.00328 24.62 −0.0149 0.003534 22.96 −0.00892 0.014315 23.8−0.00388 0.017333 24.64 −0.00299 0.00898 22.98 −0.02426 −0.00322 23.82−0.02793 −0.00139 24.66 0.005065 0.022226 23 −0.01972 0.000328 23.84−0.00887 0.002761 24.68 −0.01245 0.007777 23.02 0.01007 0.021245 23.86−0.00579 0.003391 24.7 −0.01131 0.006099 23.04 −0.01403 0.005833 23.88−0.01355 0.003078 24.72 −0.02172 −0.00368 23.06 −0.01464 0.006461 23.9−0.00188 0.018546 24.74 −0.00289 0.010099 23.08 0.005973 0.01552 23.92−0.01913 0.006185 24.76 −0.00537 0.014523 23.1 −0.03429 −0.00267 23.94−0.01102 0.005518 24.78 −0.0095 0.010551 23.12 −0.00755 0.013801 23.960.001974 0.018893 24.8 0.004244 0.013158 23.14 −0.04371 −0.0155 23.98−0.00378 0.015227 24.82 0.010712 0.018241 23.16 −0.01093 0.008438 24−0.02221 0.004986 24.84 −0.00266 0.01372 23.18 −0.02827 −0.00564 24.02−0.00979 0.009019 24.86 −0.00677 0.012735 23.2 −0.00088 0.011403 24.04−0.00435 0.012153 24.88 0.008761 0.022008 23.22 −0.01145 0.009453 24.06−0.02615 −0.00314 24.9 −0.00877 0.008737 23.24 −0.02506 0.00081 24.08−0.03816 −0.00862 24.92 −0.01968 0.00111 23.26 −0.01379 0.007395 24.1−0.02701 −0.00365 24.94 −0.00769 0.009958 24.96 −0.0031 0.010029 25.8−0.02285 0.002954 26.64 −0.00867 0.009691 24.98 −0.02668 0.002323 25.82−0.015 0.009071 26.66 0.000598 0.008458 25 −0.02494 −0.00192 25.84−0.01763 0.006081 26.68 −0.00552 0.006225 25.02 −0.00857 0.010629 25.86−0.01897 −0.00537 26.7 −0.02224 0.002346 25.04 0.005546 0.016396 25.880.002924 0.020215 26.72 −0.01919 0.009327 25.06 −0.00861 0.009162 25.9−0.00287 0.011928 26.74 −0.00769 0.006493 25.08 −0.0262 0.000995 25.92−0.01082 0.006704 26.76 −0.01344 0.003947 25.1 0.01366 0.023398 25.94−0.02791 −0.00291 26.78 −0.01288 0.003467 25.12 −0.0207 0.004447 25.960.005312 0.018242 26.8 −0.00408 0.015847 25.14 −0.00097 0.014718 25.98−0.00511 0.013375 26.82 −0.00521 0.01052 25.16 −0.02573 −0.00067 26−0.0063 0.008874 26.84 −0.00882 0.011913 25.18 0.016504 0.027773 26.020.007818 0.019922 26.86 −0.0129 0.006647 25.2 −0.00614 0.012067 26.04−0.00214 0.01381 26.88 −0.01534 0.005824 25.22 −0.01746 0.009058 26.06−0.02051 0.00237 26.9 −0.00805 0.014269 25.24 −0.03137 −0.00611 26.08−0.00228 0.012601 26.92 −0.00724 0.012557 25.26 −0.02764 −0.0012 26.1−0.00705 0.012003 26.94 0.015431 0.025878 25.28 −0.01941 −0.00035 26.12−0.00996 0.010882 26.96 −0.02073 0.001578 25.3 −0.02536 −0.00115 26.14−0.0035 0.009221 26.98 −0.00252 0.012251 25.32 0.000333 0.010809 26.16−0.00914 0.005963 27 −0.00817 0.012676 25.34 −0.01943 0.004198 26.180.001914 0.019194 27.02 0.001597 0.013862 25.36 −0.00413 0.012231 26.2−0.00113 0.016394 27.04 0.00347 0.020194 25.38 0.010904 0.019596 26.22−0.01984 0.004266 27.06 −0.02059 0.004236 25.4 −0.00541 0.010338 26.240.001612 0.017278 27.08 −0.01943 0.004017 25.42 −0.00498 0.01344 26.26−0.00935 0.009986 27.1 −0.00831 0.005192 25.44 0.010043 0.019668 26.28−0.02268 0.000401 27.12 −0.01406 0.008634 25.46 −0.01958 0.004682 26.3−0.00619 0.016747 27.14 −0.01065 0.010937 25.48 −0.00628 0.013664 26.32−0.00725 0.006242 27.16 −0.00515 0.011742 25.5 −0.01061 0.005871 26.34−0.01642 0.00659 27.18 −0.01706 0.008871 25.52 −0.01913 0.004674 26.36−0.01089 0.006929 27.2 −0.01483 0.001105 25.54 −0.01005 0.005347 26.38−0.00655 0.010025 27.22 0.000447 0.012124 25.56 −0.00419 0.010477 26.4−0.01423 0.006714 27.24 −0.02892 −0.00354 25.58 0.006916 0.014649 26.42−0.00283 0.012455 27.26 −0.02499 −0.00131 25.6 −0.00421 0.009707 26.44−0.02344 0.00249 27.28 −0.02738 0.000582 25.62 −0.0081 0.005725 26.46−0.01011 0.007331 27.3 0.005241 0.016228 25.64 −0.01058 0.009645 26.480.002232 0.015685 27.32 −0.00391 0.013754 25.66 −0.01522 0.007334 26.5−0.00471 0.009122 27.34 0.006421 0.021533 25.68 0.001527 0.014434 26.52−0.02278 −0.00364 27.36 0.018528 0.026911 25.7 −0.0156 0.002469 26.540.004199 0.019241 27.38 −0.02242 0.000776 25.72 0.001809 0.019528 26.560.006031 0.016366 27.4 0.005498 0.020277 25.74 −0.01565 0.008041 26.580.010566 0.017672 27.42 −0.02724 −0.00294 25.76 0.003336 0.01205 26.6−0.02507 −0.0015 27.44 0.009616 0.022676 25.78 −0.0195 0.003922 26.62−0.01361 0.006748 27.46 −0.01744 0.00182 27.48 −0.00197 0.012919 28.32−0.01882 0.000967 29.16 −0.01772 0.004794 27.5 0.009618 0.021362 28.34−0.03158 −0.00224 29.18 0.001159 0.014385 27.52 −0.01545 0.002465 28.36−0.00515 0.010517 29.2 −0.0092 0.007467 27.54 −0.03167 −0.00342 28.38−0.00941 0.006748 29.22 −0.01346 0.002319 27.56 −0.0113 0.010606 28.4−0.00756 0.009714 29.24 −0.01994 0.006583 27.58 −0.01945 0.004069 28.420.011084 0.022394 29.26 −0.00745 0.016102 27.6 −0.00328 0.018147 28.44−0.00903 0.009018 29.28 0.014976 0.025483 27.62 −0.0171 0.004307 28.460.004864 0.01783 29.3 −0.00281 0.014665 27.64 0.019697 0.021622 28.48−0.0079 0.009449 29.32 0.014037 0.022003 27.66 0.005681 0.019413 28.5−0.01737 0.001732 29.34 −0.01992 0.00479 27.68 −0.02397 −0.0018 28.52−0.00364 0.007808 29.36 0.002896 0.018062 27.7 −0.02382 −0.00131 28.540.0059 0.018044 29.38 −0.0073 0.0105 27.72 −0.00553 0.011185 28.56−0.0045 0.009878 29.4 0.020844 0.024903 27.74 −0.00847 0.012727 28.58−0.00975 0.008744 29.42 −0.02062 −0.0016 27.76 −0.02934 −0.00074 28.60.002862 0.016739 29.44 0.016068 0.028389 27.78 0.008647 0.022804 28.620.000083 0.014813 29.46 −0.00989 0.013432 27.8 −0.01179 0.00403 28.64−0.00755 0.013734 29.48 −0.00538 0.010562 27.82 −0.02378 −0.00068 28.66−0.01132 0.012193 29.5 0.01339 0.022942 27.84 −0.02046 0.001727 28.680.00133 0.016989 29.52 −0.01491 0.002251 27.86 0.004824 0.016327 28.70.001462 0.01183 29.54 0.0187 0.02469 27.88 0.000938 0.008806 28.72−0.02764 −0.00481 29.56 −0.00622 0.01071 27.9 −0.01373 0.00965 28.74−0.02128 0.000332 29.58 −0.01788 0.004856 27.92 −0.0005 0.016272 28.76−0.0063 0.01102 29.6 −0.00868 0.003539 27.94 0.015177 0.025458 28.78−0.02916 −0.00221 29.62 −8.1E−05 0.009763 27.96 −0.01802 0.004884 28.8−0.02015 0.008284 29.64 0.003099 0.0181 82 27.98 −0.01153 0.006331 28.82−0.00019 0.014773 29.66 −0.01044 0.006948 28 −0.03042 −0.0038 28.84−0.01723 0.002924 29.68 −0.01319 0.004393 28.02 −0.01288 0.005578 28.86−0.01419 0.001156 29.7 −0.01604 0.002141 28.04 −0.00379 0.013031 28.88−0.00704 0.007962 29.72 −0.0227 −0.00027 28.06 −0.02369 0.002368 28.90.010196 0.018418 29.74 −0.02718 −0.00377 28.08 −0.00065 0.01811 28.92−0.01382 0.008248 29.76 −0.01385 0.001537 28.1 −0.01723 0.003797 28.94−0.0163 0.008812 29.78 −0.02563 0.000812 28.12 −0.00192 0.015775 28.96−0.016 0.007167 29.8 0.013076 0.02172 28.14 −0.00858 0.010935 28.980.002357 0.01828 29.82 −0.01258 0.007628 28.16 −0.00669 0.01034 29−0.01221 0.007695 29.84 0.000264 0.014495 28.18 −0.01836 0.00244 29.02−0.0251 0.006927 29.86 −0.00824 0.008593 28.2 0.010516 0.02167 29.04−0.02535 0.000098 29.88 −0.00551 0.014503 28.22 −0.01699 0.00467 29.06−0.00397 0.013823 29.9 −0.00649 0.008497 28.24 −0.00627 0.010137 29.08−0.01404 0.008431 29.92 −0.01026 0.009555 28.26 −0.01977 0.00091 29.10.010195 0.022636 29.94 −0.00609 0.008309 28.28 −0.01469 0.007629 29.120.005695 0.016538 29.96 0.008504 0.02317 28.3 −0.02661 0.000891 29.140.002258 0.018115 29.98 −0.01651 −9.8E−05 30 −0.0032 0.016386 30.84−0.02251 0.000829 31.68 0.000465 0.017275 30.02 −0.00223 0.012625 30.86−0.01897 0.000111 31.7 0.025884 0.03104 30.04 −0.00942 0.00727 30.88−0.00984 0.001934 31.72 0.008125 0.019226 30.06 −0.01206 0.010086 30.90.001901 0.014832 31.74 0.013191 0.023575 30.08 −0.00652 0.009938 30.92−0.02704 −0.00171 31.76 0.014479 0.02358 30.1 0.001475 0.01733 30.940.014571 0.016324 31.78 0.018473 0.029406 30.12 −0.00949 0.009564 30.96−0.00113 0.010285 31.8 0.004989 0.016899 30.14 0.001704 0.013136 30.98−0.00741 0.012472 31.82 0.031748 0.031703 30.16 −0.00656 0.009109 31−0.00665 0.013505 31.84 0.020072 0.028479 30.18 −0.02383 0.002381 31.02−0.01032 0.006826 31.86 0.013073 0.02574 30.2 0.002981 0.015583 31.04−0.01092 0.00532 31.88 0.000985 0.015379 30.22 −0.01309 0.005521 31.06−0.00616 0.012151 31.9 −0.01767 0.003861 30.24 −0.00388 0.01764 31.08−0.01764 0.004348 31.92 0.01701 0.027537 30.26 0.00401 0.016784 31.10.000624 0.017634 31.94 0.019866 0.029487 30.28 −0.00331 0.011388 31.120.005639 0.023065 31.96 −0.01266 0.005426 30.3 −0.01989 0.006512 31.14−0.01207 0.007302 31.98 0.005567 0.02107 30.32 0.001651 0.016746 31.160.000254 0.014257 32 −0.01995 0.005691 30.34 0.004464 0.015515 31.18−0.02295 −0.00033 32.02 −0.02459 −0.00245 30.36 −0.00731 0.016502 31.2−0.01528 0.002097 32.04 −0.01932 0.003482 30.38 −0.00776 0.010328 31.22−0.00267 0.008824 32.06 0.005429 0.020827 30.4 0.023111 0.028897 31.24−0.01234 0.008548 32.08 −0.01778 0.00395 30.42 −0.00235 0.018385 31.26−0.01836 −0.00163 32.1 −0.01029 0.005051 30.44 0.01111 0.021558 31.280.007313 0.021627 32.12 −0.00443 0.011386 30.46 0.006027 0.026659 31.30.002849 0.016382 32.14 0.003423 0.019453 30.48 0.017769 0.023064 31.32−0.00709 0.01347 32.16 −0.00569 0.013532 30.5 0.026135 0.033952 31.34−0.00308 0.011328 32.18 −0.00778 0.00714 30.52 0.018123 0.025153 31.36−0.01354 0.007043 32.2 −0.02025 0.001867 30.54 −0.00103 0.01352 31.38−0.00502 0.010034 32.22 0.004379 0.017767 30.56 0.013664 0.020386 31.4−0.03349 −0.00523 32.24 −0.02923 −0.00157 30.58 0.011993 0.020279 31.42−0.01144 0.003559 32.26 −0.01327 0.004046 30.6 0.002853 0.015146 31.44−0.01968 −0.00161 32.28 −0.01906 0.002395 30.62 0.024847 0.027579 31.46−0.00152 0.013478 32.3 −0.00892 0.004087 30.64 −0.00832 0.008861 31.48−0.00555 0.00926 32.32 0.005644 0.015182 30.66 −0.0036 0.018022 31.50.030193 0.033035 32.34 −0.02007 0.004015 30.68 0.032136 0.031088 31.52−7.3E−05 0.01216 32.36 0.005043 0.015201 30.7 0.013275 0.022551 31.540.006864 0.017784 32.38 0.004733 0.019663 30.72 −0.01891 0.002249 31.56−0.01044 0.012269 32.4 −0.01404 0.012699 30.74 −0.01116 0.002116 31.580.030593 0.033164 32.42 0.032235 0.035912 30.76 −0.02445 0.004766 31.6−0.01115 0.009799 32.44 −0.00028 0.015281 30.78 0.004683 0.018027 31.620.003676 0.016094 32.46 0.009437 0.02088 30.8 −0.02769 −0.00355 31.640.001955 0.015344 32.48 0.003368 0.018178 30.82 0.01378 0.021965 31.660.016509 0.028698 32.5 −0.01152 0.006845 32.52 −0.0292 0.00523 33.36−0.01945 0.002014 34.2 0.016505 0.019066 32.54 −0.00375 0.019224 33.38−0.01373 0.004159 34.22 −0.01874 −0.0022 32.56 −0.01017 0.009151 33.4−0.00412 0.006637 34.24 −0.0228 −0.00229 32.58 0.002898 0.011601 33.42−0.01256 0.003792 34.26 −0.01549 0.004474 32.6 0.008722 0.019379 33.440.004991 0.01703 34.28 −0.02362 −0.00225 32.62 0.002746 0.011536 33.46−0.00026 0.012747 34.3 −0.01827 0.003237 32.64 0.005034 0.015214 33.480.003139 0.015999 34.32 0.008803 0.015433 32.66 0.002667 0.020189 33.5−0.00821 0.008497 34.34 −0.03694 −0.00986 32.68 −0.00588 0.010532 33.52−0.01395 0.007341 34.36 −0.04722 −0.01675 32.7 −0.00463 0.0126 33.54−0.01824 0.006169 34.38 −0.01057 0.005552 32.72 −0.0017 0.01345 33.56−0.00705 0.01106 34.4 −0.01565 0.00636 32.74 −0.00694 0.007963 33.58−0.00558 0.011178 34.42 −0.01861 0.000058 32.76 0.011784 0.019523 33.60.002844 0.015366 34.44 −0.01317 0.008012 32.78 −0.00829 0.008339 33.62−0.00182 0.016945 34.46 0.004923 0.024582 32.8 0.003194 0.015366 33.64−0.01399 0.007736 34.48 0.007405 0.021616 32.82 −0.02057 0.004601 33.660.006651 0.021143 34.5 −0.00471 0.015837 32.84 −0.02376 −0.00071 33.68−0.00741 0.009405 34.52 0.004011 0.009376 32.86 −0.00409 0.011251 33.7−0.01939 0.006642 34.54 −0.00482 0.009305 32.88 −0.00469 0.014445 33.72−0.02219 −0.00053 34.56 0.01 0.015938 32.9 0.001594 0.017117 33.740.00065 0.015869 34.58 −0.01041 0.011472 32.92 −0.01193 0.006187 33.760.013841 0.017178 34.6 −0.02353 0.000591 32.94 −0.02586 0.003907 33.780.011878 0.020543 34.62 −0.01552 0.005716 32.96 −0.01315 0.001155 33.8−0.02161 −0.00179 34.64 −0.00242 0.009526 32.98 −0.02658 −0.00299 33.82−0.01516 0.006838 34.66 −0.00696 0.01039 33 0.006225 0.019847 33.84−0.0337 −0.00773 34.68 0.002172 0.016381 33.02 −0.01973 0.006251 33.86−0.00553 0.006652 34.7 −0.00084 0.01396 33.04 −0.02017 0.002713 33.88−0.00346 0.010502 34.72 −0.0246 −0.00442 33.06 0.01257 0.021751 33.90.014919 0.02145 34.74 −0.01037 0.012368 33.08 −0.00871 0.010671 33.92−0.00221 0.008853 34.76 −0.02537 0.006835 33.1 −0.01366 0.002939 33.940.017466 0.023787 34.78 −0.00422 0.011447 33.12 −0.00459 0.010636 33.96−0.01672 0.001938 34.8 0.011139 0.019368 33.14 −0.00593 0.010916 33.98−0.03564 −0.00356 34.82 −0.0106 0.006716 33.16 0.001156 0.010902 340.002283 0.016591 34.84 −0.04202 −0.00794 33.18 −0.00892 0.003827 34.02−0.00945 0.010918 34.86 0.002865 0.016437 33.2 −0.00791 0.006356 34.04−0.00947 0.011189 34.88 −0.03471 −0.01058 33.22 −0.00919 0.013444 34.06−0.00062 0.010941 34.9 0.003278 0.014302 33.24 −0.02161 −3.7E−05 34.08−0.00222 0.013839 34.92 0.016522 0.019532 33.26 0.00199 0.013131 34.10.013336 0.020261 34.94 −0.00693 0.011526 33.28 −0.00336 0.014706 34.12−0.00086 0.01424 34.96 −0.00439 0.007038 33.3 −0.02591 0.000538 34.14−0.00297 0.013978 34.98 −0.00628 0.009208 33.32 −0.00835 0.010279 34.16−0.004 0.011465 35 −0.01262 0.005114 33.34 0.006869 0.021395 34.18−0.0015 0.013011 35.02 −0.01982 0.003502 35.04 0.005737 0.015192 35.880.007249 0.019764 36.72 −0.02243 −0.00367 35.06 −0.00214 0.018302 35.9−0.0031 0.013031 36.74 −0.00027 0.00669 35.08 −0.00771 0.012526 35.92−0.01974 0.002045 36.76 −0.01887 −0.00211 35.1 0.009119 0.019586 35.94−0.01097 0.010728 36.78 −0.00733 0.0075 35.12 −0.01811 0.001313 35.96−0.00183 0.008395 36.8 −0.00839 0.00454 35.14 −0.0268 −0.00464 35.98−0.00467 0.010105 36.82 0.005324 0.007557 35.16 −0.00267 0.013068 360.004798 0.016298 36.84 −0.00702 0.004762 35.18 −0.00951 0.004513 36.02−0.00114 0.008773 36.86 0.013369 0.01396 35.2 −0.02567 −0.00167 36.04−0.01459 0.003437 36.88 −0.00469 −0.00057 35.22 −0.02181 0.000775 36.060.016053 0.02293 36.9 −0.01001 −0.00115 35.24 −0.01087 0.007925 36.080.01472 0.020758 36.92 0.008325 0.010895 35.26 −0.01362 0.005992 36.1−0.01364 0.007037 36.94 −0.0079 0.006352 35.28 −0.00517 0.011224 36.12−0.02592 −0.00082 36.96 −0.00982 0.005495 35.3 −0.00474 0.00729 36.14−0.00101 0.018409 36.98 −0.00329 0.008544 35.32 −0.01081 0.008576 36.160.001831 0.017042 37 −0.01053 0.010457 35.34 −0.01815 0.008631 36.18−0.00765 0.005269 37.02 −0.00882 0.015864 35.36 0.009374 0.019001 36.2−0.00059 0.009734 37.04 0.009285 0.027611 35.38 −0.00678 0.008848 36.22−0.00929 0.008077 37.06 −0.00413 0.022436 35.4 −0.03153 −0.00685 36.24−0.02806 −0.001 37.08 −0.00846 0.019435 35.42 −0.02454 0.003717 36.26−0.01306 0.008169 37.1 −0.00522 0.024844 35.44 0.007427 0.021312 36.280.008648 0.019446 37.12 −0.01819 0.018777 35.46 0.020196 0.018474 36.3−0.01763 0.000977 37.14 −0.013 0.025585 35.48 −0.00155 0.007739 36.320.01989 0.023905 37.16 −0.00916 0.027147 35.5 0.008345 0.020513 36.34−0.02686 0.000448 37.18 −0.00965 0.027117 35.52 −0.00127 0.015958 36.36−0.00988 0.008583 37.2 −0.01576 0.023712 35.54 −0.00113 0.009531 36.38−0.00441 0.010648 37.22 −0.01588 0.024411 35.56 −0.01507 0.004768 36.4−0.00747 0.008667 37.24 −0.02041 0.021323 35.58 0.010779 0.01968 36.42−0.01358 0.003272 37.26 −0.01909 0.022525 35.6 −0.01315 0.006617 36.44−0.00526 0.007282 37.28 −0.01657 0.023997 35.62 −0.00569 0.011114 36.460.008331 0.021593 37.3 −0.0175 0.023549 35.64 −0.00159 0.018301 36.480.006504 0.018276 37.32 −0.01702 0.02322 35.66 −0.00158 0.006585 36.5−0.00687 0.009015 37.34 −0.01774 0.023137 35.68 −0.01076 0.010447 36.52−0.00557 0.010854 37.36 −0.02396 0.019223 35.7 −0.02272 0.000283 36.54−0.00313 0.008928 37.38 −0.02314 0.012443 35.72 −0.00648 0.010068 36.56−0.00035 0.015287 37.4 −0.00635 −0.00316 35.74 −0.01876 0.004051 36.58−0.0152 −0.00251 37.42 0.013541 −0.01083 35.76 −0.02052 0.004838 36.6−0.01613 0.008349 37.44 0.015086 −0.01257 35.78 −0.01165 0.006354 36.62−0.00332 0.010132 37.46 −0.0007 −0.01329 35.8 −0.03664 −0.00645 36.64−0.01691 0.005944 37.48 −0.01609 −0.01843 35.82 −0.0062 0.016039 36.660.00509 0.015287 37.5 −0.00035 −0.02139 35.84 −0.0083 0.014194 36.68−0.00347 0.007346 37.52 0.015298 −0.01877 35.86 −0.00858 0.005058 36.70.002245 0.015181 37.54 0.015279 −0.02063 37.56 0.013541 −0.01996 38.40.003812 −0.0008 39.24 0.009008 −0.02217 37.58 0.003797 −0.02092 38.420.012143 −0.01294 39.26 −0.00018 −0.02046 37.6 −0.00519 −0.02077 38.440.015499 −0.01359 39.28 −0.00504 −0.01666 37.62 −0.00597 −0.01952 38.460.009391 −0.01748 39.3 −0.00396 −0.0139 37.64 −0.00931 −0.02033 38.48−0.00321 −0.02057 39.32 0.003972 −0.00169 37.66 −0.00143 −0.01362 38.50.004162 −0.01609 39.34 −0.01121 −0.01286 37.68 −0.00278 −0.0039 38.520.01066 −0.01951 39.36 −0.00271 0.004501 37.7 −0.01224 −0.00584 38.540.014858 −0.01975 39.38 0.019857 0.025798 37.72 −0.00687 −0.00473 38.560.016969 −0.01951 39.4 −0.01694 −0.00112 37.74 −0.00621 0.001787 38.580.012016 −0.02129 39.42 −0.00456 0.009305 37.76 0.007666 0.005383 38.6−0.00584 −0.02651 39.44 −0.01411 0.003253 37.78 −0.01494 0.00047 38.62−0.007 −0.01784 39.46 0.02052 0.024105 37.8 −0.01318 0.000854 38.64−0.00046 −0.00909 39.48 0.002086 0.012012 37.82 0.005312 0.022019 38.660.005252 0.007621 39.5 −0.01084 0.009234 37.84 −0.00329 0.017552 38.680.007242 0.015764 39.52 0.009228 0.017061 37.86 −0.01262 0.004109 38.70.008513 0.016245 39.54 −0.00665 0.009525 37.88 −0.00918 0.010258 38.720.007346 0.021039 39.56 0.012552 0.01857 37.9 −0.02066 0.000259 38.74−0.02044 0.005124 39.58 0.00452 0.014193 37.92 −0.02209 0.000991 38.76−0.00054 0.020978 39.6 0.00228 0.012717 37.94 −0.01143 0.008404 38.78−0.00949 0.019303 39.62 −0.00301 0.01298 37.96 −0.0028 0.013546 38.8−0.03259 0.004364 39.64 −0.00693 0.007842 37.98 −0.00455 0.010294 38.82−0.01554 0.017219 39.66 0.014476 0.023379 38 −0.00196 0.015279 38.84−0.02864 0.014419 39.68 −0.00225 0.012816 38.02 −0.00038 0.018473 38.86−0.0127 0.022256 39.7 −0.0182 0.005316 38.04 0.005849 0.019527 38.88−0.00528 0.029242 39.72 −0.02555 0.002669 38.06 −0.00101 0.018423 38.9−0.01632 0.020757 39.74 −0.00967 0.010916 38.08 0.004052 0.02103 38.92−0.01133 0.02495 39.76 −0.00369 0.018493 38.1 −0.01651 0.012178 38.94−0.01291 0.025584 39.78 −0.01853 0.00174 38.12 −0.005 0.025003 38.96−0.0185 0.022869 39.8 0.018086 0.025473 38.14 −0.01566 0.015165 38.98−0.0134 0.025426 39.82 −0.01644 0.009201 38.16 0.00228 0.030547 39−0.01134 0.026429 39.84 0.035291 0.03467 38.18 −0.0104 0.020912 39.02−0.01531 0.024395 39.86 0.001612 0.014123 38.2 −0.00987 0.024819 39.04−0.01442 0.022007 39.88 −0.00313 0.015989 38.22 −0.00295 0.028311 39.06−0.01211 0.004554 39.9 −0.00874 0.010056 38.24 −0.00817 0.025126 39.080.009892 −0.01012 39.92 −0.0123 0.008561 38.26 0.000071 0.030764 39.10.020535 −0.01101 39.94 0.005641 0.020001 38.28 −0.01174 0.024131 39.120.011887 −0.01293 39.96 0.014919 0.021149 38.3 −0.01014 0.026126 39.14−0.0138 −0.01464 39.98 −0.00977 0.009148 38.32 −0.01341 0.024132 39.16−0.01067 −0.01762 40 −0.00364 0.017301 38.34 −0.01344 0.023197 39.180.00412 −0.02285 40.02 −0.02213 −0.00229 38.36 −0.01476 0.01989 39.20.017982 −0.01844 40.04 −0.01738 0.007055 38.38 −0.01401 0.009605 39.220.013978 −0.02114 40.06 −0.00597 0.014781 40.08 0.010478 0.018596 40.92−0.0193 0.00716 41.76 −0.0089 0.012001 40.1 −0.00146 0.010396 40.940.001412 0.015899 41.78 0.013997 0.020294 40.12 −0.01401 0.002465 40.960.008119 0.013217 41.8 −0.00687 0.004861 40.14 −0.00844 0.005218 40.98−0.00917 0.008533 41.82 −0.0157 0.007673 40.16 −0.00857 0.010411 41−0.00412 0.019327 41.84 0.006165 0.016911 40.18 −0.01068 0.005943 41.020.000987 0.015488 41.86 −0.01825 0.001891 40.2 −0.00528 0.007657 41.040.001283 0.011292 41.88 0.016677 0.02101 40.22 0.007827 0.019336 41.06−0.01512 0.002774 41.9 −0.01587 0.002428 40.24 0.012368 0.022233 41.08−0.00414 0.009785 41.92 0.016665 0.026325 40.26 −0.00253 0.012181 41.1−0.01485 0.007443 41.94 −0.01352 0.008406 40.28 −0.00717 0.011315 41.12−0.01524 0.007527 41.96 −0.00401 0.011788 40.3 −0.01218 0.006541 41.14−0.01999 0.003947 41.98 −0.01055 0.005881 40.32 0.004902 0.020101 41.160.000493 0.014566 42 −0.0013 0.014195 40.34 −0.00329 0.014063 41.18−0.0027 0.013729 42.02 −0.01158 0.005826 40.36 −0.02763 −0.00681 41.2−0.01115 0.00793 42.04 −0.00641 0.009857 40.38 −0.00635 0.012211 41.22−0.00069 0.010898 42.06 −0.00403 0.008856 40.4 −0.00823 0.011837 41.24−0.00289 0.013226 42.08 −0.00042 0.014461 40.42 −0.00855 0.009783 41.260.005165 0.019632 42.1 −0.01838 0.007031 40.44 −0.00728 0.00798 41.28−0.01591 0.000492 42.12 −0.00303 0.016564 40.46 −0.02597 0.001328 41.30.000341 0.013416 42.14 −0.00306 0.005662 40.48 0.001732 0.013927 41.32−0.00444 0.007369 42.16 −0.01729 0.000943 40.5 −0.01381 −0.00034 41.340.009833 0.021127 42.18 −0.01568 0.003091 40.52 −0.00317 0.01163 41.36−0.01725 −0.00238 42.2 −0.01444 0.006186 40.54 −0.00574 0.012976 41.38−0.00573 0.013665 42.22 −0.0121 0.009971 40.56 −0.0307 −0.00345 41.40.038508 0.036507 42.24 0.003193 0.017657 40.58 −0.01872 0.001796 41.42−0.00261 0.013851 42.26 0.007657 0.016608 40.6 −0.01112 0.009164 41.44−0.00025 0.016103 42.28 0.00035 0.014258 40.62 −0.01683 0.00708 41.460.003349 0.015699 42.3 −0.00995 0.006205 40.64 −0.01282 0.008174 41.48−0.01221 0.004093 42.32 −0.01704 0.003055 40.66 0.001824 0.012103 41.5−0.00287 0.017163 42.34 −0.00717 0.006644 40.68 −0.01139 0.006295 41.52−0.01245 0.007951 42.36 0.01101 0.02799 40.7 0.012456 0.01775 41.54−0.0201 0.005301 42.38 0.005154 0.020168 40.72 −0.00847 0.005684 41.56−0.00493 0.014465 42.4 −0.0114 0.009381 40.74 −0.00903 0.010948 41.58−0.00671 0.006329 42.42 −0.0057 0.013384 40.76 −0.01452 0.006288 41.6−0.01115 0.009628 42.44 0.006059 0.019167 40.78 −0.00813 0.009476 41.62−0.00234 0.01714 42.46 0.008619 0.016958 40.8 −0.006 0.005171 41.64−0.01066 0.008073 42.48 −0.00503 0.012566 40.82 −0.02239 −0.00212 41.66−0.01613 0.008872 42.5 0.015122 0.023036 40.84 −0.00676 0.013198 41.68−0.00199 0.016229 42.52 0.009283 0.023444 40.86 −0.00766 0.009039 41.7−0.00737 0.011801 42.54 −0.00558 0.012165 40.88 −0.01351 0.008042 41.72−0.01908 0.002862 42.56 −0.00222 0.010993 40.9 0.006809 0.021375 41.740.017629 0.02243 42.58 −0.00618 0.012958 42.6 0.019065 0.026557 43.44−0.02278 0.00606 44.28 −0.00812 0.010067 42.62 −0.00768 0.010068 43.46−0.0138 −0.0004 44.3 0.000564 0.014219 42.64 0.008029 0.020678 43.48−0.00234 0.014116 44.32 −0.00859 0.012094 42.66 0.000848 0.01366 43.5−0.01718 0.005713 44.34 −0.00571 0.004373 42.68 −0.00781 0.0091 43.52−0.00594 0.007765 44.36 0.002691 0.010852 42.7 0.008274 0.022485 43.540.004767 0.016663 44.38 −0.00798 0.010482 42.72 0.022411 0.027246 43.560.007588 0.021499 44.4 −0.01379 0.000336 42.74 0.018516 0.027066 43.580.006727 0.020847 44.42 −0.02584 −0.00703 42.76 0.019143 0.031328 43.6−0.00243 0.013134 44.44 −0.01544 0.00486 42.78 −0.00042 0.01169 43.62−0.02246 0.004805 44.46 −0.03395 −0.0092 42.8 0.005148 0.016647 43.640.001676 0.017178 44.48 −0.02241 −0.00404 42.82 0.020827 0.028753 43.66−0.00842 0.007959 44.5 −7.6E−05 0.010865 42.84 0.005504 0.018092 43.68−0.00216 0.015066 44.52 −0.02273 −0.00478 42.86 0.015053 0.022334 43.7−0.0083 0.008793 44.54 −0.00177 0.009005 42.88 −0.01346 0.003315 43.720.00214 0.008842 44.56 −0.00525 0.011238 42.9 −0.0002 0.013128 43.74−0.01656 0.003826 44.58 −0.00271 0.008645 42.92 −0.00017 0.018005 43.760.010088 0.01818 44.6 0.001355 0.014574 42.94 0.016769 0.022241 43.780.00416 0.019354 44.62 −0.00737 0.010001 42.96 0.008281 0.011947 43.8−0.00281 0.010477 44.64 0.003261 0.015922 42.98 −0.01104 0.013472 43.82−0.00123 0.012408 44.66 −0.00368 0.006277 43 −0.00611 0.009931 43.84−0.02588 −0.00169 44.68 −0.01135 0.005029 43.02 0.011343 0.021105 43.86−0.01835 0.004798 44.7 −0.01905 0.001727 43.04 0.005166 0.017693 43.88−0.01335 0.004835 44.72 −0.02004 0.004415 43.06 0.02145 0.026969 43.9−0.00467 0.006761 44.74 −0.01047 0.011587 43.08 0.007168 0.016293 43.92−0.01049 0.00836 44.76 −0.0169 0.002118 43.1 0.008566 0.014845 43.94−0.01205 0.002622 44.78 0.008105 0.02278 43.12 0.016085 0.02124 43.96−0.00392 0.006452 44.8 −0.00905 0.010533 43.14 −0.01065 0.00685 43.980.008734 0.020168 44.82 0.003742 0.019194 43.16 0.020187 0.024103 44−0.0222 −0.00102 44.84 −0.00999 0.015139 43.18 −0.00989 0.005809 44.020.006473 0.018862 44.86 −0.02675 0.00818 43.2 0.010003 0.014302 44.04−0.00799 0.008175 44.88 −0.0135 0.016853 43.22 0.013657 0.020813 44.06−0.00196 0.011842 44.9 −0.01526 0.017818 43.24 −0.00271 0.014229 44.08−0.01714 −0.00003 44.92 −0.01296 0.02099 43.26 −0.00335 0.015266 44.10.011979 0.021452 44.94 −0.00844 0.025491 43.28 0.007194 0.012132 44.12−0.00436 0.002272 44.96 −0.02055 0.019942 43.3 0.000664 0.012912 44.14−0.00986 0.004288 44.98 −0.01665 0.023 43.32 −0.00321 0.010468 44.160.004718 0.01087 45 −0.01534 0.022958 43.34 −0.02372 −0.00063 44.18−0.00279 0.007376 45.02 −0.01718 0.022909 43.36 0.011566 0.02197 44.2−0.00729 0.012124 45.04 −0.01006 0.02837 43.38 −0.01107 0.011656 44.220.010641 0.021789 45.06 −0.0106 0.027883 43.4 −0.00691 0.010887 44.24−0.02192 0.000826 45.08 −0.01049 0.02813 43.42 0.005059 0.020907 44.26−0.01172 0.008713 45.1 −0.01191 0.027281 45.12 −0.01283 0.026881 45.96−0.01034 0.010102 46.8 −0.01085 0.011709 45.14 −0.01373 0.02612 45.98−0.01344 0.003183 46.82 0.004973 0.018476 45.16 −0.01706 0.024451 46−0.01379 0.008254 46.84 −0.00428 0.007847 45.18 −0.02074 0.021493 46.02−0.00608 0.012955 46.86 −0.00237 0.012744 45.2 −0.02508 0.014492 46.04−0.02467 0.008075 46.88 −0.00287 0.013631 45.22 −0.01713 −0.00198 46.06−0.0072 0.011797 46.9 −0.0167 0.007019 45.24 0.006263 −0.01502 46.080.004129 0.02037 46.92 −0.0207 0.001446 45.26 0.01944 −0.01527 46.1−0.01 0.010983 46.94 −0.00553 0.002513 45.28 0.015647 −0.01579 46.12−0.00894 0.014356 46.96 0.018616 0.025335 45.3 −0.0137 −0.01283 46.140.014145 0.023917 46.98 −0.00588 0.014972 45.32 −0.03372 −0.01144 46.16−0.0089 0.01574 47 −0.00278 0.008494 45.34 −0.01878 −0.02138 46.18−0.00467 0.011685 47.02 0.006851 0.01984 45.36 0.007573 −0.02123 46.2−0.00208 0.01393 47.04 −0.0108 0.010339 45.38 0.017723 −0.01984 46.220.01379 0.025905 47.06 −0.001 0.014593 45.4 0.018717 −0.02032 46.24−0.02895 −0.00447 47.08 −0.00168 0.013539 45.42 0.011858 −0.02202 46.26−0.0057 0.012703 47.1 −0.0155 0.006479 45.44 0.001017 −0.02335 46.28−0.02719 −0.00161 47.12 0.003965 0.017529 45.46 −0.00073 −0.02004 46.30.016492 0.026565 47.14 0.026192 0.030702 45.48 −0.00073 −0.01821 46.32−0.01653 0.006379 47.16 −0.00859 0.006141 45.5 −0.00807 −0.02125 46.34−0.00557 0.014792 47.18 −0.00129 0.014349 45.52 0.004114 −0.01188 46.36−0.0107 0.009823 47.2 −0.01543 0.005044 45.54 0.001748 −0.008 46.380.011821 0.023618 47.22 −0.00913 0.004059 45.56 0.011254 −0.00185 46.4−0.02874 −0.00324 47.24 0.002328 0.015661 45.58 0.008126 −0.00266 46.42−0.02039 0.004919 47.26 0.000448 0.017717 45.6 0.002 −0.00281 46.44−0.00215 0.011844 47.28 −0.00264 0.012393 45.62 −0.0142 −0.0095 46.46−0.00235 0.015802 47.3 −0.01609 0.007544 45.64 0.008925 0.007085 46.480.006047 0.02347 47.32 0.004602 0.018599 45.66 0.005076 0.010577 46.5−0.00743 0.010414 47.34 −0.0103 0.007614 45.68 0.005632 0.009913 46.52−0.0201 0.000271 47.36 0.008756 0.018755 45.7 −0.01929 0.0003 46.54−0.0102 0.006273 47.38 0.001633 0.017959 45.72 −0.01727 −0.00237 46.56−0.02247 0.002476 47.4 0.003902 0.015982 45.74 −0.00916 0.007911 46.580.001202 0.018532 47.42 −0.01014 0.004401 45.76 0.00332 0.016639 46.6−0.01145 0.009647 47.44 −0.02631 −0.00063 45.78 −0.00651 0.010099 46.62−0.01239 0.00623 47.46 −0.01574 0.009701 45.8 −0.02587 −0.00665 46.640.011144 0.017939 47.48 −0.00105 0.00943 45.82 −0.01466 0.00748 46.66−0.01179 0.007317 47.5 −0.01526 0.009385 45.84 −0.00582 0.005428 46.68−0.01471 0.009838 47.52 0.000142 0.01189 45.86 0.013014 0.023774 46.7−0.01525 0.007429 47.54 −0.01084 0.009873 45.88 −0.01425 0.007727 46.72−0.01465 0.005854 47.56 −0.00613 0.007757 45.9 −0.01221 0.006998 46.74−0.00664 0.011989 47.58 0.00721 0.015491 45.92 0.001145 0.014205 46.760.009459 0.01976 47.6 −0.0308 −0.00992 45.94 −0.00897 0.012569 46.78−0.0031 0.008937 47.62 −0.02246 −0.00328 47.64 −0.009 0.00551 48.48−0.02666 −0.00904 49.32 −0.01273 0.026117 47.66 −0.0098 0.009168 48.5−0.00623 0.013275 49.34 −0.0127 0.025629 47.68 −0.01516 0.002191 48.52−0.01174 0.010395 49.36 −0.0153 0.024689 47.7 −0.00507 0.010512 48.540.001591 0.017361 49.38 −0.01589 0.023675 47.72 −0.00469 0.010641 48.56−0.0112 0.00921 49.4 −0.01875 0.020858 47.74 0.011659 0.021232 48.58−0.00783 0.0073 49.42 −0.01703 0.011057 47.76 −0.03527 −0.00573 48.6−0.00276 0.014514 49.44 0.004412 −0.00017 47.78 −0.01779 0.000005 48.62−0.01521 0.006778 49.46 0.023536 −0.0101 47.8 −0.01432 0.002729 48.64−0.02319 0.001009 49.48 0.024454 −0.01582 47.82 −0.03046 −0.00545 48.66−0.01384 0.006131 49.5 0.022055 −0.01407 47.84 −0.00919 0.010536 48.68−0.00493 0.01145 49.52 −0.0057 −0.00737 47.86 −0.0038 0.010727 48.7−0.014 0.006046 49.54 −0.01882 0.003667 47.88 −0.0098 0.007254 48.72−0.01388 0.009318 49.56 −0.01364 −0.00604 47.9 0.0034 0.015573 48.74−0.00989 0.007111 49.58 0.007151 −0.01625 47.92 0.006108 0.008474 48.760.000456 0.016566 49.6 0.021946 −0.01628 47.94 −0.00162 0.011186 48.78−0.01588 0.002643 49.62 0.025619 −0.01625 47.96 −0.01597 0.003812 48.80.029267 0.030979 49.64 0.019654 −0.01954 47.98 −0.00728 0.011431 48.820.001492 0.009883 49.66 0.010208 −0.02037 48 −0.01291 0.006579 48.840.00743 0.01796 49.68 0.004674 −0.01889 48.02 0.006953 0.02176 48.860.012198 0.021949 49.7 0.002124 −0.01605 48.04 −0.02151 0.001396 48.880.006882 0.01598 49.72 −0.00011 −0.01015 48.06 0.004481 0.020214 48.9−0.00793 0.010099 49.74 −0.01932 −0.02079 48.08 0.006197 0.017652 48.920.008311 0.021901 49.76 0.017115 0.011251 48.1 0.000009 0.012763 48.940.012372 0.023006 49.78 −0.00469 −0.00183 48.12 −0.00719 0.010285 48.96−0.02482 −0.00627 49.8 0.017431 0.019306 48.14 −0.00576 0.013514 48.98−0.02676 0.005251 49.82 −0.00238 0.005606 48.16 −0.01763 0.004911 49−0.00372 0.01403 49.84 −0.01526 −0.00096 48.18 −0.00973 0.008559 49.020.014828 0.025121 49.86 0.002226 0.00887 48.2 −0.01276 0.005467 49.04−0.01767 0.003385 49.88 0.011085 0.016299 48.22 0.003461 0.015175 49.06−0.00811 0.014194 49.9 0.010521 0.021228 48.24 −0.00558 0.009064 49.08−0.01427 0.007029 49.92 0.007874 0.0229 48.26 −0.0179 0.006129 49.10.001949 0.020607 49.94 0.00945 0.013838 48.28 −0.00875 0.010369 49.12−0.01018 0.016655 49.96 −0.03145 −0.00703 48.3 0.005201 0.017535 49.140.006345 0.032103 49.98 0.007024 0.018753 48.32 −0.0324 −0.00249 49.16−0.01324 0.018449 50 0.004645 0.017714 48.34 0.011856 0.020991 49.18−0.01806 0.015733 50.02 0.011431 0.019803 48.36 0.005825 0.016036 49.2−0.01209 0.019794 50.04 −0.01439 0.006472 48.38 −0.00305 0.007563 49.22−0.00982 0.021613 50.06 0.001172 0.014133 48.4 −0.00788 0.004788 49.24−0.00606 0.028067 50.08 0.001851 0.01609 48.42 −0.00335 0.010091 49.26−0.01723 0.02198 50.1 −0.01805 0.002948 48.44 −0.00752 0.010548 49.28−0.00693 0.028208 50.12 −0.00373 0.013542 48.46 −0.00101 0.012071 49.3−0.01445 0.02497 50.14 −0.01789 0.000851 50.16 −0.00554 0.008764 51−0.00576 0.01317 51.84 −0.00559 0.008276 50.18 0.000013 0.016631 51.020.007567 0.022335 51.86 0.013251 0.024178 50.2 −0.03144 0.002388 51.04−0.0156 0.00202 51.88 −0.00502 0.011092 50.22 0.029176 0.033032 51.06−0.00471 0.019125 51.9 −0.00358 0.010006 50.24 −0.01696 0.009093 51.08−0.00202 0.016726 51.92 0.02377 0.033537 50.26 −0.00889 0.008788 51.1−0.01655 0.000399 51.94 0.010055 0.017758 50.28 −0.0154 0.004941 51.12−0.00762 0.009003 51.96 −0.00391 0.01466 50.3 −0.01451 0.010406 51.14−0.01667 0.000955 51.98 −0.01682 0.009497 50.32 0.012384 0.028311 51.160.010023 0.023772 52 −0.01871 0.002249 50.34 0.00946 0.016445 51.18−0.02097 0.004393 52.02 −0.01746 0.004823 50.36 −0.01673 0.007465 51.2−0.01251 0.011568 52.04 −0.01142 0.006399 50.38 0.007768 0.020616 51.220.002617 0.012486 52.06 0.002761 0.015979 50.4 −0.01403 0.002637 51.24−0.01418 0.002274 52.08 −0.02343 −0.00318 50.42 −0.00432 0.011362 51.260.003053 0.017425 52.1 −0.01608 0.003574 50.44 −0.01018 0.00814 51.28−0.00342 0.011578 52.12 −0.0234 −0.00022 50.46 −0.00592 0.012115 51.3−0.0278 −0.0034 52.14 0.032778 0.035668 50.48 0.004701 0.014781 51.32−0.00084 0.015552 52.16 −0.01234 0.008383 50.5 −0.00769 0.012325 51.34−0.00802 0.012612 52.18 −0.01433 0.00713 50.52 0.005298 0.018254 51.36−0.01733 0.002053 52.2 −0.00558 0.004748 50.54 0.002143 0.015844 51.38−0.01416 0.004557 52.22 −0.01747 0.007264 50.56 −0.03664 −0.0044 51.40.003046 0.012819 52.24 −0.02432 −0.00089 50.58 −0.00685 0.010435 51.42−0.00764 0.00641 52.26 −0.01159 0.008182 50.6 −0.00699 0.008005 51.44−0.02448 −0.00335 52.28 −0.01269 0.006128 50.62 0.010048 0.016907 51.46−0.01197 0.002316 52.3 −0.00318 0.012141 50.64 0.013254 0.02295 51.48−0.01021 0.00523 52.32 −0.00505 0.010688 50.66 −0.00411 0.012477 51.5−0.00846 0.008167 52.34 −0.00203 0.015547 50.68 −0.00248 0.012058 51.52−0.00513 0.013113 52.36 −0.00823 0.009187 50.7 −0.01706 0.005674 51.54−0.00764 0.01022 52.38 −0.01737 0.002183 50.72 −0.00995 0.009398 51.560.006052 0.014545 52.4 −0.00514 0.009227 50.74 −0.01483 0.007428 51.58−0.0097 0.008926 52.42 −0.01123 0.010472 50.76 −0.0164 0.007895 51.6−0.01032 0.009088 52.44 0.001186 0.013657 50.78 −0.01569 0.005755 51.62−0.00241 0.014618 52.46 0.022357 0.029093 50.8 −0.01299 0.005453 51.64−0.02353 −0.00409 52.48 0.005669 0.019434 50.82 −0.01001 0.011653 51.660.00722 0.020372 52.5 −0.01135 0.01059 50.84 −0.00622 0.010965 51.68−0.02445 −0.00095 52.52 −0.00054 0.015579 50.86 −0.00551 0.01038 51.7−0.00788 0.011126 52.54 0.000848 0.014641 50.88 −0.01651 0.001969 51.720.006479 0.018619 52.56 −0.01346 0.003585 50.9 −0.00371 0.016127 51.74−0.01075 0.003427 52.58 −0.00391 0.012785 50.92 0.02781 0.030841 51.76−0.01709 0.010464 52.6 0.008888 0.019349 50.94 −0.01065 0.002449 51.78−0.02358 0.003257 52.62 −0.01264 0.012744 50.96 0.006754 0.013081 51.80.007561 0.012218 52.64 −0.01572 0.006225 50.98 −0.01017 0.007619 51.82−0.01143 0.005846 52.66 0.002212 0.013996 52.68 −0.02095 −0.00091 53.52−0.00924 0.01244 54.36 0.011238 0.02202 52.7 0.005183 0.021024 53.54−0.01172 0.005681 54.38 −0.01947 0.00135 52.72 0.001405 0.01784 53.56−0.01337 0.003926 54.4 0.019714 0.026418 52.74 −0.00252 0.013184 53.580.010623 0.019472 54.42 0.009804 0.017438 52.76 0.001531 0.010804 53.60.013434 0.022051 54.44 −0.01479 0.009445 52.78 0.007903 0.018188 53.62−0.01438 0.006877 54.46 −0.00863 0.009168 52.8 0.004367 0.018592 53.64−0.01083 0.0105 54.48 −0.00476 0.010119 52.82 −0.02449 −0.00444 53.66−0.00627 0.010974 54.5 0.008995 0.012942 52.84 0.000401 0.009351 53.68−0.01088 0.007914 54.52 −0.00546 0.010218 52.86 0.000019 0.014788 53.7−0.0239 −0.00211 54.54 0.003646 0.017891 52.88 −0.00695 0.008344 53.720.001057 0.014162 54.56 −0.00718 0.010324 52.9 −0.00525 0.007173 53.74−0.03155 −0.00266 54.58 −0.00677 0.005796 52.92 −0.00546 0.012448 53.76−0.02685 0.003628 54.6 0.001873 0.018916 52.94 −0.00565 0.012602 53.78−0.00037 0.012565 54.62 0.000152 0.016065 52.96 −0.00608 0.013568 53.8−0.00104 0.013302 54.64 −0.0045 0.013134 52.98 −0.01777 0.002312 53.820.001774 0.012315 54.66 −0.00878 0.007808 53 −0.01852 0.001464 53.84−0.00837 0.011441 54.68 0.007659 0.017328 53.02 −0.0134 0.010005 53.86−0.00521 0.01142 54.7 −0.01701 0.000503 53.04 0.001018 0.017323 53.88−0.01151 0.008644 54.72 −0.01363 0.00476 53.06 −0.02461 −0.00104 53.9−0.00806 0.006974 54.74 −0.00916 0.008855 53.08 −0.00682 0.010001 53.92−0.02856 −0.00123 54.76 −0.02075 0.007276 53.1 −0.00666 0.011732 53.94−0.01159 0.013283 54.78 −0.02954 −0.00435 53.12 −0.01156 0.006938 53.960.023074 0.026879 54.8 0.003453 0.018674 53.14 0.004187 0.021398 53.98−0.01828 0.00208 54.82 −0.02561 −0.00361 53.16 0.009335 0.017758 540.000204 0.014779 54.84 0.014994 0.023479 53.18 0.003733 0.016107 54.020.000817 0.018247 54.86 −0.00385 0.013687 53.2 0.029622 0.035051 54.040.003493 0.007271 54.88 −0.00049 0.016617 53.22 −0.00474 0.013259 54.06−0.00293 0.011218 54.9 −0.01243 0.00606 53.24 −0.00758 0.010673 54.08−0.03023 −0.00438 54.92 0.002099 0.013919 53.26 −0.0069 0.012643 54.1−0.03485 −0.00545 54.94 0.002222 0.019674 53.28 0.002194 0.010663 54.12−0.01674 0.005935 54.96 −0.01347 0.010426 53.3 −0.01955 0.003221 54.14−0.00299 0.011614 54.98 0.00317 0.018061 53.32 0.00358 0.013931 54.160.012301 0.017996 55 −0.01486 0.006559 53.34 −0.00207 0.018146 54.18−0.01075 0.013638 55.02 −0.01199 0.006152 53.36 −0.00966 0.006573 54.2−0.01079 0.00392 55.04 0.014666 0.027241 53.38 0.001298 0.017156 54.22−0.01233 0.010026 55.06 −0.01369 0.005795 53.4 0.001141 0.018317 54.24−0.02803 −0.00564 55.08 −0.01285 0.007124 53.42 0.012091 0.023646 54.26−0.01132 0.007022 55.1 −0.00286 0.009877 53.44 −0.00307 0.020766 54.28−0.00179 0.018903 55.12 −0.01151 0.011551 53.46 −0.01806 0.005006 54.30.007307 0.013979 55.14 −0.00284 0.014665 53.48 −0.01732 0.000281 54.32−0.00595 0.010319 55.16 0.013514 0.022109 53.5 −0.01541 0.00866 54.34−0.00151 0.016286 55.18 −0.03482 −0.00642 55.2 0.01774 0.025139 56.04−0.00782 0.00534 56.88 −0.02591 −0.00644 55.22 0.024286 0.022673 56.06−0.02642 0.001454 56.9 −0.02517 −0.00581 55.24 −0.00744 0.014658 56.08−0.02926 −0.00274 56.92 0.004737 0.010105 55.26 0.014157 0.025673 56.10.016182 0.026238 56.94 −0.02252 0.006588 55.28 −0.02021 0.002805 56.120.001547 0.008948 56.96 −0.01112 0.009023 55.3 −0.00658 0.012756 56.14−0.00247 0.018448 56.98 −0.01684 0.003252 55.32 0.019806 0.026651 56.16−0.00577 0.012792 57 −0.00513 0.01135 55.34 −0.00815 0.01446 56.180.007666 0.016559 57.02 −0.00071 0.013518 55.36 −0.00067 0.012019 56.2−0.01768 0.000081 57.04 −0.00336 0.011266 55.38 0.007585 0.013766 56.220.02607 0.027765 57.06 −0.00112 0.015422 55.4 −0.01326 0.006075 56.24−0.01994 −0.00064 57.08 0.011147 0.020068 55.42 0.00084 0.017181 56.26−0.02028 −0.00071 57.1 −0.01719 0.002539 55.44 −0.0148 0.006066 56.28−0.01175 0.005902 57.12 −0.00236 0.016493 55.46 0.017537 0.02162 56.3−0.0177 −0.00047 57.14 −0.01339 0.001777 55.48 −0.01021 0.004424 56.320.000105 0.018918 57.16 0.00778 0.023381 55.5 −0.0026 0.011792 56.34−0.01108 0.004796 57.18 −0.0203 0.002338 55.52 −0.00854 0.011124 56.360.01239 0.020419 57.2 0.006039 0.023239 55.54 0.009436 0.02135 56.38−0.00178 0.016282 57.22 −0.00682 0.004428 55.56 0.008375 0.019105 56.4−0.02037 −0.00018 57.24 −0.0158 0.001827 55.58 −0.00105 0.017586 56.42−0.00617 0.013032 57.26 −0.00027 0.015143 55.6 −0.00751 0.002759 56.440.001508 0.010484 57.28 −0.01589 0.004606 55.62 −0.02227 0.001275 56.460.005485 0.021255 57.3 −0.02018 0.00309 55.64 −0.00421 0.010469 56.48−0.01969 0.003708 57.32 0.003732 0.021729 55.66 −0.01256 0.001857 56.50.01451 0.022468 57.34 −0.02996 −0.00786 55.68 −0.02567 0.001199 56.52−0.00715 0.012339 57.36 0.003568 0.017192 55.7 −0.00801 0.012858 56.54−0.0198 0.002698 57.38 0.003356 0.020694 55.72 0.001404 0.014847 56.56−0.00975 0.00609 57.4 −0.00038 0.014278 55.74 −0.01188 0.006871 56.58−0.00161 0.015159 57.42 −0.00924 0.01373 55.76 −0.02249 0.001433 56.6−0.01293 0.007001 57.44 0.008611 0.018892 55.78 −0.00585 0.015087 56.62−0.00459 0.018622 57.46 −0.01012 0.008998 55.8 0.004809 0.017527 56.64−0.00368 0.009692 57.48 0.007918 0.01715 55.82 0.008424 0.015698 56.660.006202 0.022588 57.5 −0.02845 −0.00391 55.84 0.001025 0.013178 56.68−0.00525 0.012778 57.52 0.008798 0.016611 55.86 0.016258 0.029141 56.70.001127 0.012502 57.54 0.01308 0.022936 55.88 −0.00322 0.007757 56.72−0.0178 0.001509 57.56 −0.01145 0.006765 55.9 0.001695 0.011242 56.74−0.00398 0.010813 57.58 −0.01408 0.004513 55.92 −0.01667 0.007813 56.76−0.01716 −0.00188 57.6 −0.00541 0.006217 55.94 −0.00161 0.014753 56.78−0.0173 0.000665 57.62 −0.02102 0.004628 55.96 0.00487 0.016841 56.80.021072 0.030182 57.64 0.000786 0.011979 55.98 −0.02316 0.002252 56.820.002588 0.01949 57.66 −0.00869 0.009385 56 −0.01227 0.011933 56.840.028983 0.028357 57.68 0.008017 0.020162 56.02 −0.01927 0.000355 56.860.000815 0.01186 57.7 0.00707 0.01632 57.72 0.008439 0.01603 58.560.024078 0.033072 59.4 −0.01061 0.019574 57.74 −0.00049 0.01388 58.58−0.00263 0.017567 59.42 −0.00963 0.023933 57.76 0.011103 0.024202 58.6−0.0056 0.007133 59.44 −0.01101 0.023725 57.78 0.009191 0.018907 58.620.004654 0.014806 59.46 −0.01546 0.023662 57.8 −0.01525 0.006855 58.64−0.01142 0.006637 59.48 −0.01362 0.025266 57.82 0.006254 0.017726 58.66−0.00659 0.013005 59.5 −0.01206 0.026721 57.84 −0.01739 −0.00024 58.68−0.02472 −3.1E−05 59.52 −0.01062 0.027278 57.86 −0.01221 0.007211 58.7−0.0094 0.001894 59.54 −0.01805 0.02302 57.88 −0.01574 0.00489 58.72−0.02602 −0.00093 59.56 −0.0212 0.018922 57.9 −0.00829 0.007912 58.740.003168 0.020166 59.58 −0.01599 0.01386 57.92 −0.00049 0.014045 58.760.003598 0.01683 59.6 −0.00608 −0.00305 57.94 −0.00176 0.014112 58.78−0.0003 0.016168 59.62 0.012343 −0.01618 57.96 0.02715 0.026343 58.8−0.01104 0.00316 59.64 0.018483 −0.01954 57.98 −0.01938 0.002146 58.82−0.02356 −0.00054 59.66 0.017454 −0.01932 58 0.027895 0.030962 58.840.009979 0.021628 59.68 0.007503 −0.01491 58.02 0.002267 0.014469 58.86−0.00324 0.018895 59.7 −0.01571 −0.0014 58.04 −0.01237 0.010801 58.880.001801 0.01898 59.72 −0.02045 0.015092 58.06 −0.00357 0.015143 58.9−0.0004 0.026087 59.74 −0.02608 0.009426 58.08 −0.01001 0.003588 58.920.003251 0.024932 59.76 0.000069 0.002626 58.1 −0.0145 0.010505 58.94−0.02366 0.008968 59.78 0.006765 −0.01802 58.12 −0.01971 0.000688 58.96−0.00157 0.024025 59.8 0.021973 −0.0173 58.14 −0.0105 0.006341 58.98−0.00883 0.021501 59.82 0.013796 −0.0244 58.16 −0.01117 0.008954 59−0.01804 0.019064 59.84 0.01441 −0.02155 58.18 0.010102 0.014395 59.02−0.01512 0.021411 59.86 0.01095 −0.01754 58.2 −0.02039 0.000224 59.04−0.01312 0.023857 59.88 0.000274 −0.02117 58.22 −0.00347 0.015892 59.06−0.01656 0.019808 59.9 0.00884 −0.01179 58.24 0.000691 0.016265 59.08−0.01199 0.020058 59.92 −0.00375 −0.01504 58.26 0.006383 0.020602 59.1−0.01453 0.006979 59.94 −0.01546 −0.01464 58.28 0.004654 0.0204 59.120.000565 −0.00587 59.96 −0.0123 −0.01728 58.3 −0.00739 0.007334 59.140.015913 −0.01057 59.98 0.000019 0.002719 58.32 0.000567 0.015619 59.160.015962 −0.01565 60 0.0169 0.012863 58.34 −0.01826 0.00657 59.180.021858 −0.01082 60.02 −0.02586 −0.01045 58.36 −0.01189 0.007979 59.2−0.00275 −0.01514 60.04 0.002003 0.006494 58.38 0.024394 0.032529 59.22−0.00415 0.009809 60.06 0.00626 0.009675 58.4 0.013846 0.02559 59.24−0.01517 0.011037 60.08 0.003681 0.012213 58.42 0.000922 0.017065 59.26−0.01734 0.006079 60.1 0.003586 0.01766 58.44 0.005923 0.019814 59.280.003083 0.003451 60.12 −0.01618 0.001184 58.46 0.00373 0.019715 59.30.01737 −0.00397 60.14 −0.00028 0.008218 58.48 0.002423 0.014282 59.320.023493 −0.00589 60.16 0.022239 0.033722 58.5 −0.01297 0.003926 59.340.010561 −0.00831 60.18 0.014763 0.018566 58.52 −0.01548 0.004026 59.360.008795 0.003546 60.2 −0.01156 0.010403 58.54 0.011186 0.021228 59.38−0.01092 0.009695 60.22 −0.01777 −0.00162 60.24 0.008616 0.015016 61.08−0.00927 0.010404 61.92 −0.03702 −0.00628 60.26 −0.00422 0.01066 61.1−0.00186 0.013974 61.94 −0.00154 0.014545 60.28 −0.00974 0.007239 61.12−0.01615 0.003998 61.96 −0.01101 0.0089 60.3 −0.00728 0.013121 61.14−0.01428 0.006595 61.98 0.002174 0.013508 60.32 −0.01157 0.009975 61.16−0.00643 0.012442 62 0.00207 0.013963 60.34 0.00634 0.015139 61.18−0.01323 0.002553 62.02 0.02564 0.031638 60.36 −0.01087 0.003203 61.2−0.00565 0.008747 62.04 0.01032 0.018291 60.38 −0.00844 0.010978 61.22−0.01996 0.00121 62.06 −0.02039 0.001017 60.4 0.002304 0.019422 61.240.014123 0.024712 62.08 −0.00677 0.007626 60.42 −0.007 0.010567 61.260.001266 0.01223 62.1 −0.01373 0.005504 60.44 −0.02109 0.002851 61.28−0.00318 0.01554 62.12 0.000282 0.015833 60.46 −0.00177 0.016491 61.3−0.00329 0.017508 62.14 −0.01663 0.001696 60.48 −0.00751 0.010778 61.32−0.01501 0.004136 62.16 −0.00499 0.015741 60.5 −0.00495 0.008166 61.34−0.00886 0.009186 62.18 0.025716 0.028582 60.52 0.000573 0.016355 61.36−0.00854 0.011395 62.2 −0.00803 0.012763 60.54 −0.00844 0.00577 61.380.002415 0.016395 62.22 −0.01521 0.007406 60.56 −0.00105 0.015468 61.40.007198 0.013189 62.24 −0.02358 0.001717 60.58 −0.03367 −0.00827 61.42−0.00363 0.011491 62.26 −0.02858 −0.00096 60.6 −0.02833 0.000896 61.440.011445 0.025148 62.28 0.012188 0.022437 60.62 −0.03015 −0.00327 61.46−0.00277 0.013991 62.3 −0.00086 0.012238 60.64 0.006151 0.020829 61.48−0.01627 −0.00154 62.32 0.009732 0.019586 60.66 −0.01727 0.009789 61.5−0.00705 0.00283 62.34 −0.00421 0.013949 60.68 −0.01392 0.005714 61.52−0.00215 0.01261 62.36 0.001907 0.019421 60.7 −0.00734 0.012921 61.54−0.00645 0.010743 62.38 −0.00721 0.012831 60.72 −0.02074 0.002866 61.560.003449 0.015448 62.4 −0.02235 0.001753 60.74 0.001811 0.012879 61.58−0.00316 0.011099 62.42 −0.00828 0.011083 60.76 −0.02273 0.004544 61.60.004842 0.017444 62.44 0.020621 0.027042 60.78 −0.00438 0.013377 61.620.004949 0.018385 62.46 0.004834 0.020279 60.8 −0.02833 −0.00476 61.64−0.02389 −0.00012 62.48 −0.00832 0.01155 60.82 −0.01201 0.004231 61.66−0.00148 0.008217 62.5 −0.00778 0.007385 60.84 −0.01601 0.005426 61.680.012354 0.019851 62.52 0.030767 0.028864 60.86 0.025466 0.032875 61.7−0.0015 0.011262 62.54 −0.01651 0.001941 60.88 −0.00567 0.01152 61.72−0.03246 −0.00203 62.56 0.000314 0.014558 60.9 −0.00932 0.004512 61.740.008914 0.017853 62.58 −0.00894 0.011278 60.92 0.013744 0.021137 61.76−0.01233 0.007282 62.6 −0.02905 −0.00652 60.94 −0.00305 0.014791 61.78−0.01144 0.007804 62.62 −0.01559 0.001637 60.96 −0.00588 0.017786 61.8−0.0147 0.006057 62.64 −0.00923 0.010789 60.98 −0.01598 0.008431 61.820.005209 0.021859 62.66 −0.00701 0.010623 61 0.010935 0.02127 61.840.013914 0.02448 62.68 0.034636 0.030672 61.02 0.002248 0.013452 61.86−0.00764 0.007253 62.7 −0.01594 0.002488 61.04 0.008326 0.019159 61.880.021901 0.027662 62.72 0.010807 0.021564 61.06 0.014493 0.023346 61.9−0.00027 0.014089 62.74 0.0062 0.014238 62.76 0.004319 0.014395 63.60.019995 0.027301 64.44 0.000781 0.008328 62.78 −0.02453 −0.0012 63.62−0.00451 0.013964 64.46 0.016502 0.023736 62.8 0.004087 0.017609 63.64−0.00956 0.010486 64.48 −0.00977 0.005516 62.82 0.002593 0.012223 63.66−0.02425 0.001904 64.5 0.010132 0.022211 62.84 0.006462 0.025534 63.68−0.01339 0.005909 64.52 −0.0164 0.002803 62.86 0.019587 0.025675 63.7−0.01386 0.001977 64.54 0.012748 0.027626 62.88 −0.00428 0.004919 63.720.011416 0.026609 64.56 −0.0074 0.01236 62.9 −0.00689 0.003587 63.74−0.00844 0.007653 64.58 −0.00231 0.016093 62.92 0.020156 0.023848 63.76−0.00468 0.008722 64.6 0.021028 0.031251 62.94 −0.01012 0.010305 63.78−0.01396 0.006371 64.62 −0.03053 −0.01124 62.96 −0.01883 −0.00443 63.80.006471 0.016748 64.64 −0.01197 0.004527 62.98 0.006674 0.015884 63.82−0.01453 −0.00153 64.66 −0.02668 −0.00636 63 −0.02079 0.006183 63.840.015301 0.021849 64.68 −0.02301 −0.0021 63.02 −0.0128 0.003578 63.86−0.01951 0.001212 64.7 −0.00339 0.009562 63.04 −0.00031 0.015328 63.88−0.00407 0.012369 64.72 −0.01461 0.0017 63.06 −0.01922 0.004119 63.90.006023 0.016845 64.74 0.007482 0.015469 63.08 −0.00204 0.013878 63.92−0.00345 0.009416 64.76 0.011845 0.017641 63.1 0.000992 0.014996 63.940.007054 0.020912 64.78 0.009437 0.014449 63.12 0.030637 0.029326 63.96−0.0082 0.003415 64.8 −0.00951 0.006945 63.14 −0.00061 0.015297 63.98−0.02431 −0.00364 64.82 0.009907 0.020599 63.16 −0.00379 0.015885 64−0.01781 0.00536 64.84 −0.01 0.007308 63.18 −0.00725 0.005162 64.02−0.03023 −0.00701 64.86 −0.01116 0.002442 63.2 −0.01624 0.006375 64.04−0.01368 0.005304 64.88 −0.01162 0.00852 63.22 −0.00103 0.018569 64.06−0.00459 0.014432 64.9 −0.01499 0.00704 63.24 0.005798 0.020726 64.080.0039 0.018818 64.92 0.00086 0.019046 63.26 0.003658 0.015261 64.1−0.00216 0.012226 64.94 −0.00181 0.017603 63.28 0.003847 0.017328 64.12−0.00216 0.014183 64.96 −0.01249 0.008982 63.3 −0.021 −0.00373 64.14−0.01336 0.009749 64.98 −0.00311 0.017205 63.32 0.003128 0.015608 64.16−0.03045 −0.01094 65 −0.00954 0.014941 63.34 −0.00148 0.012731 64.18−0.01973 0.003458 65.02 −0.01756 0.005291 63.36 −0.01122 0.007242 64.2−0.01586 0.005682 65.04 −0.00473 0.017399 63.38 −0.00654 0.008314 64.22−0.00346 0.01247 65.06 −0.00826 0.017634 63.4 −0.00461 0.01125 64.24−0.00476 0.010972 65.08 −0.00613 0.012869 63.42 0.000193 0.01638 64.260.015917 0.022256 65.1 −0.00958 0.012964 63.44 −0.01314 0.002084 64.280.002906 0.015343 65.12 −0.00278 0.020056 63.46 −0.01282 0.012267 64.30.005067 0.017523 65.14 −0.01674 0.012571 63.48 0.015168 0.027305 64.320.003986 0.019308 65.16 −0.01107 0.020154 63.5 −0.02366 0.003161 64.34−0.02232 −0.00407 65.18 −0.0059 0.020719 63.52 −0.01414 0.006139 64.36−0.01404 0.007916 65.2 −0.00279 0.025263 63.54 −0.01012 0.00575 64.380.001525 0.015904 65.22 −0.0092 0.020757 63.56 −0.0136 0.006203 64.4−0.00626 0.003569 65.24 −0.01027 0.021257 63.58 0.000007 0.010688 64.42−1.2E−05 0.012571 65.26 −0.0118 0.023375 65.28 −0.01369 0.022475 66.12−0.00766 0.022235 66.96 −0.0099 0.005599 65.3 −0.01508 0.023582 66.14−0.01438 0.018533 66.98 −0.00657 0.01001 65.32 −0.01914 0.021743 66.16−0.01521 0.02199 67 0.017674 0.021535 65.34 −0.01615 0.024072 66.18−0.01663 0.022225 67.02 0.013238 0.01711 65.36 −0.01953 0.022954 66.2−0.01946 0.021997 67.04 −0.00557 0.012292 65.38 −0.02223 0.018034 66.22−0.0163 0.024948 67.06 −0.00753 0.007434 65.4 −0.02264 0.010842 66.24−0.01894 0.022081 67.08 0.016604 0.02209 65.42 −0.00976 −0.00269 66.26−0.02064 0.0208 67.1 −0.00205 0.018327 65.44 0.005087 −0.01717 66.28−0.02405 0.018506 67.12 −0.00673 0.011279 65.46 0.016822 −0.02042 66.3−0.0231 0.016556 67.14 −0.01007 0.014512 65.48 0.020889 −0.01937 66.32−0.01551 0.010614 67.16 −0.01368 0.006495 65.5 0.015369 −0.01866 66.340.004311 −0.00345 67.18 −0.00198 0.015394 65.52 0.00078 −0.01069 66.360.018797 −0.01109 67.2 −0.01817 0.004679 65.54 −0.01966 0.006749 66.380.020412 −0.0142 67.22 −0.01528 0.009806 65.56 −0.02214 0.015679 66.40.015949 −0.01266 67.24 0.017193 0.026487 65.58 −0.02375 0.012298 66.420.001879 −0.00975 67.26 −0.01411 0.003791 65.6 −0.00943 0.003747 66.44−0.01265 0.004264 67.28 −0.00442 0.018862 65.62 0.006776 −0.01189 66.46−0.02521 0.015923 67.3 −0.0035 0.011633 65.64 0.014643 −0.02039 66.48−0.02899 0.015971 67.32 −0.0108 0.007553 65.66 0.018911 −0.02127 66.5−0.02977 0.009837 67.34 0.003588 0.019071 65.68 0.017505 −0.02116 66.52−0.00735 0.001704 67.36 0.009196 0.026252 65.7 0.009164 −0.02213 66.540.013319 −0.00806 67.38 −0.00256 0.015189 65.72 0.004912 −0.01991 66.560.01824 −0.01305 67.4 −0.01738 0.007503 65.74 0.003685 −0.01676 66.580.01873 −0.01289 67.42 0.014102 0.024718 65.76 −0.00708 −0.02025 66.60.010934 −0.01403 67.44 0.005664 0.02565 65.78 −0.00887 −0.01691 66.620.003023 −0.01496 67.46 −0.01444 0.00543 65.8 0.007666 −0.00041 66.640.003606 −0.01024 67.48 −0.01569 0.008243 65.82 −0.02752 −0.02173 66.660.009594 −0.00404 67.5 −0.01108 0.008109 65.84 −0.0073 −0.00549 66.680.007049 0.000609 67.52 −0.03092 −0.00044 65.86 0.001287 0.009513 66.70.008191 0.006343 67.54 0.003445 0.014914 65.88 −0.02407 −0.00945 66.72−0.01388 −0.00649 67.56 0.007771 0.019145 65.9 0.003225 0.008076 66.740.006464 0.004808 67.58 0.001615 0.019943 65.92 −0.00758 0.012242 66.760.003494 0.006746 67.6 0.014745 0.020669 65.94 −0.01785 0.005826 66.78−0.00569 0.004627 67.62 0.002916 0.018773 65.96 −0.00532 0.011975 66.8−0.00524 0.006858 67.64 −0.03259 −0.004 65.98 −0.00398 0.01431 66.820.007471 0.020102 67.66 −0.00499 0.005854 66 0.004563 0.020146 66.840.004222 0.01811 67.68 −0.02848 0.001299 66.02 −0.00209 0.015327 66.86−0.01009 0.003504 67.7 −0.01578 0.001744 66.04 0.003209 0.015085 66.88−0.00857 0.006991 67.72 −0.01436 0.005448 66.06 −0.00782 0.01186 66.9−0.00987 0.006407 67.74 0.004873 0.01914 66.08 0.0197 0.027866 66.92−0.02808 −0.00242 67.76 −0.00309 0.016135 66.1 −0.00953 0.017096 66.94−0.0053 0.005724 67.78 0.013176 0.022256 67.8 −0.01134 0.008504 68.640.014364 0.01485 69.48 −0.01762 0.01786 67.82 −0.01141 0.007768 68.660.011609 0.01955 69.5 −0.01292 0.023611 67.84 −0.02649 −0.00095 68.68−0.00993 0.003626 69.52 −0.0123 0.026368 67.86 −0.00717 0.010494 68.70.002565 0.015643 69.54 −0.01516 0.025315 67.88 0.004182 0.015487 68.72−0.01642 0.005448 69.56 −0.01573 0.024368 67.9 −0.02902 −0.00681 68.74−0.00261 0.013282 69.58 −0.01735 0.023819 67.92 −0.00824 0.012028 68.76−0.01872 0.000066 69.6 −0.02036 0.021444 67.94 0.00065 0.016067 68.78−0.00787 0.009815 69.62 −0.0185 0.021682 67.96 0.006301 0.0155 68.8−0.00132 0.012522 69.64 −0.02248 0.016986 67.98 0.000478 0.0099 68.82−0.0036 0.009449 69.66 −0.01887 0.008927 68 −0.01505 0.003508 68.84−0.02612 −0.00628 69.68 0.005919 −0.00311 68.02 0.002992 0.010261 68.860.01203 0.024516 69.7 0.015746 −0.01548 68.04 −0.00034 0.019939 68.88−0.01138 0.006226 69.72 0.019332 −0.0177 68.06 −0.01732 0.000538 68.9−0.02617 −0.002 69.74 0.019084 −0.01512 68.08 −0.01559 0.004918 68.92−0.00294 0.015062 69.76 0.006429 −0.01319 68.1 −0.00968 0.010243 68.94−0.02603 −0.00073 69.78 −0.00972 −0.00571 68.12 −0.01915 0.001666 68.96−0.02018 −0.00084 69.8 −0.02618 0.005825 68.14 −0.01372 0.006998 68.980.010199 0.017429 69.82 −0.02179 0.020972 68.16 −0.02455 −0.00316 69−0.00739 0.003941 69.84 −0.03068 0.01535 68.18 0.007451 0.020968 69.02−0.01227 0.00502 69.86 −0.02034 0.010223 68.2 0.004756 0.017894 69.040.017973 0.025085 69.88 0.001801 −0.00478 68.22 0.008709 0.015698 69.06−0.01017 0.00783 69.9 0.012962 −0.01566 68.24 0.00367 0.018022 69.080.006884 0.02316 69.92 0.018802 −0.01524 68.26 −0.00651 0.012734 69.1−0.00169 0.008888 69.94 0.017838 −0.0151 68.28 0.010297 0.014588 69.120.008515 0.024729 69.96 0.010557 −0.01532 68.3 −0.00411 0.007459 69.14−0.01327 0.006612 69.98 −0.001 −0.01687 68.32 −0.01121 0.008415 69.160.000982 0.016173 70 0.003949 −0.00766 68.34 −0.00349 0.008884 69.18−0.00886 0.009283 70.02 −0.00501 −0.0102 68.36 −0.00852 0.001913 69.2−0.00247 0.01868 70.04 −0.01391 −0.01291 68.38 −0.01528 0.00489 69.22−0.00622 0.013271 70.06 −0.0099 −0.00694 68.4 0.003081 0.016052 69.24−0.00198 0.018596 70.08 −0.01336 −0.00889 68.42 −0.02676 −0.00293 69.26−0.02461 0.006188 70.1 −0.01032 −0.00047 68.44 0.005114 0.017107 69.280.00497 0.018377 70.12 −0.01243 −0.0042 68.46 −0.00142 0.014656 69.30.004536 0.01944 70.14 −0.01439 −0.00413 68.48 −0.00626 0.010467 69.32−0.01226 0.012505 70.16 −0.01403 −0.0024 68.5 −0.00108 0.014906 69.34−0.02061 0.006096 70.18 −0.01293 0.002344 68.52 −0.00413 0.009491 69.36−0.0017 0.015543 70.2 −0.0033 0.008005 68.54 0.005478 0.016477 69.38−0.01231 0.005083 70.22 −0.00371 0.011582 68.56 −0.00285 0.012008 69.4−0.01209 0.005517 70.24 −0.00253 0.008343 68.58 −0.02147 0.00491 69.420.017827 0.035233 70.26 −0.01555 0.004358 68.6 0.014633 0.020312 69.44−0.01283 0.016474 70.28 −0.01427 0.00338 68.62 −0.01809 0.002489 69.46−0.01728 0.015138 70.3 −0.01125 0.005406 70.32 −0.00535 0.006861 71.160.012818 0.022549 72 0.000241 0.009087 70.34 −0.01213 0.00211 71.18−0.00722 0.010818 72.02 −0.01539 0.007466 70.36 0.010783 0.021305 71.2−0.01284 0.005853 72.04 −0.02451 0.001227 70.38 −0.01483 −0.00129 71.220.004058 0.017478 72.06 −0.01643 0.000971 70.4 −0.02314 0.001108 71.24−0.01102 0.009099 72.08 0.019725 0.026796 70.42 0.008066 0.018066 71.26−0.00256 0.012364 72.1 −0.01234 0.014778 70.44 −0.00887 0.010023 71.28−0.00225 0.013945 72.12 0.011189 0.014699 70.46 −0.00114 0.013304 71.3−0.01778 0.005716 72.14 −0.01759 −0.00245 70.48 −0.01621 0.005665 71.32−0.00472 0.00937 72.16 −0.0153 0.003546 70.5 −0.00434 0.013378 71.34−0.01216 0.005383 72.18 0.006339 0.015132 70.52 0.017155 0.027511 71.36−0.01808 0.00784 72.2 0.002034 0.013436 70.54 −0.00882 0.005893 71.380.011448 0.018971 72.22 −0.02328 −0.0006 70.56 0.001266 0.016858 71.4−0.00604 0.014879 72.24 −0.02073 0.005913 70.58 −0.00497 0.015311 71.42−0.00866 0.010346 72.26 −0.01592 −0.0009 70.6 −0.01233 0.004864 71.44−0.0255 0.002737 72.28 −0.00301 0.012727 70.62 −0.02207 0.006646 71.46−0.01098 0.006101 72.3 0.015547 0.020693 70.64 −0.00087 0.012369 71.48−0.02198 −0.00226 72.32 −0.00388 0.007331 70.66 −0.00714 0.015979 71.50.004763 0.016437 72.34 −0.00294 0.012083 70.68 −0.00347 0.011409 71.52−0.02266 0.001694 72.36 −0.01225 0.003726 70.7 −0.02172 0.005294 71.54−0.01994 0.00549 72.38 0.002764 0.021875 70.72 −0.01352 0.005232 71.56−0.02507 −0.00115 72.4 −0.01187 0.005105 70.74 −0.00397 0.012901 71.58−0.00681 0.010841 72.42 0.006141 0.014553 70.76 0.004502 0.018881 71.60.000005 0.011132 72.44 −0.03234 −0.00303 70.78 −0.01332 0.00755 71.62−0.00671 0.007274 72.46 −0.01817 0.006083 70.8 −0.00034 0.012975 71.64−0.00095 0.013275 72.48 0.00486 0.018267 70.82 −0.00512 0.007784 71.66−0.00771 0.007009 72.5 0.010069 0.016921 70.84 0.0054 0.013831 71.68−0.01229 0.009069 72.52 −0.01274 0.005592 70.86 0.001276 0.017391 71.70.005248 0.016664 72.54 −0.01902 0.005237 70.88 −0.00811 0.008539 71.72−0.02547 0.001791 72.56 −0.00808 0.012743 70.9 −0.00037 0.02053 71.74−0.01382 0.007351 72.58 −0.01071 0.005799 70.92 −0.00121 0.013971 71.76−0.02172 0.007215 72.6 −0.01901 0.006941 70.94 −0.0171 0.001381 71.78−0.00195 0.014587 72.62 −0.01639 0.004758 70.96 0.005306 0.012096 71.80.009506 0.020433 72.64 −0.01277 0.012202 70.98 −0.02334 −0.00346 71.820.001688 0.013319 72.66 0.000721 0.016339 71 −0.01256 0.00553 71.84−0.01059 0.004914 72.68 −0.02949 −0.00552 71.02 0.003227 0.015354 71.860.003039 0.021173 72.7 0.004525 0.017567 71.04 −0.01641 0.008219 71.88−0.01639 0.005257 72.72 −0.01529 0.003254 71.06 −0.01092 0.010542 71.9−0.00243 0.01152 72.74 0.007631 0.018765 71.08 −0.00655 0.010626 71.920.000418 0.018546 72.76 0.001005 0.013945 71.1 −0.02421 0.001514 71.94−0.00456 0.01062 72.78 −0.00893 0.008887 71.12 −0.01473 0.010004 71.960.003766 0.021572 72.8 −0.00869 0.007576 71.14 −0.03682 −0.01024 71.98−0.02059 0.000439 72.82 −0.00831 0.011597 72.84 0.008065 0.022975 73.68−0.01284 0.006257 74.52 −0.00296 0.015101 72.86 −0.02072 0.005645 73.70.006493 0.014916 74.54 −0.00018 0.008348 72.88 −0.0221 0.003477 73.72−0.00172 0.014803 74.56 −0.00283 0.018558 72.9 −0.00244 0.011493 73.74−0.02113 −0.00167 74.58 0.001859 0.015249 72.92 −0.00673 0.015075 73.76−0.00638 0.010622 74.6 −0.02337 0.002303 72.94 −0.00447 0.015845 73.78−0.01402 0.004689 74.62 −0.01376 0.000698 72.96 0.008664 0.020008 73.80.019317 0.028954 74.64 −0.00298 0.015878 72.98 0.001995 0.014023 73.820.00404 0.014166 74.66 0.022582 0.028748 73 −0.00081 0.01437 73.84−0.01652 0.005812 74.68 −0.00939 0.009842 73.02 0.009087 0.01666 73.86−0.01346 0.002629 74.7 0.007382 0.02213 73.04 0.018306 0.025473 73.88−0.00881 0.007804 74.72 0.005245 0.019116 73.06 −0.00058 0.015376 73.90.002352 0.014547 74.74 −0.01385 0.005358 73.08 −0.00239 0.015035 73.92−0.01825 0.002883 74.76 −0.01882 0.002804 73.1 −0.01114 0.005293 73.94−0.00365 0.01206 74.78 −0.01179 0.008814 73.12 −0.0051 0.015598 73.96−0.01836 0.005914 74.8 −0.01618 0.002976 73.14 0.00004 0.014475 73.98−0.00746 0.009905 74.82 −0.01606 −0.00037 73.16 −0.01344 0.007675 74−0.00639 0.012768 74.84 0.016301 0.023145 73.18 0.003766 0.018299 74.02−0.00227 0.017296 74.86 0.003092 0.016718 73.2 −0.00075 0.010195 74.04−0.02987 −0.00064 74.88 −0.01455 0.006198 73.22 −0.00846 0.007666 74.06−0.02325 −0.00198 74.9 0.0043 0.020144 73.24 0.004015 0.017251 74.080.007368 0.021743 74.92 −0.02016 −0.00014 73.26 −0.00884 0.011088 74.1−0.00925 0.005911 74.94 −0.01524 0.003918 73.28 −0.00316 0.016813 74.120.005529 0.018564 74.96 −0.00503 0.01381 73.3 −0.00921 0.012147 74.14−0.02523 0.001049 74.98 −0.00827 0.011951 73.32 0.002843 0.014738 74.16−0.00482 0.009919 75 0.005028 0.024515 73.34 −0.00716 0.012122 74.18−0.00577 0.011173 75.02 0.00338 0.012573 73.36 0.020721 0.030483 74.2−0.00265 0.014446 75.04 −0.00811 0.008127 73.38 −0.02095 0.003015 74.220.001421 0.014863 75.06 −0.01311 0.004718 73.4 −0.00171 0.01512 74.24−0.01069 0.008475 75.08 −0.01251 0.003525 73.42 −0.00166 0.011331 74.260.005385 0.015227 75.1 0.005549 0.014485 73.44 −0.01859 0.002816 74.28−0.00426 0.009724 75.12 −0.01508 0.006856 73.46 −0.00299 0.012659 74.30.024808 0.026943 75.14 −0.01519 0.010551 73.48 −0.03347 −0.00487 74.32−0.00278 0.012317 75.16 −0.00869 0.011305 73.5 0.003343 0.022472 74.34−0.01912 0.008758 75.18 −0.01366 0.00943 73.52 −0.01419 0.006315 74.360.012911 0.025571 75.2 −0.00141 0.012278 73.54 0.01093 0.020254 74.380.00642 0.016739 75.22 −0.01166 0.007993 73.56 −0.02997 −0.00329 74.4−0.00454 0.009146 75.24 0.00615 0.017678 73.58 0.008648 0.021185 74.420.001567 0.019464 75.26 −0.0185 −0.00252 73.6 0.00501 0.016488 74.44−0.00744 0.008642 75.28 0.006061 0.01997 73.62 −0.00618 0.009823 74.460.002081 0.011527 75.3 0.011293 0.023274 73.64 −0.01121 0.010339 74.48−0.01238 0.00899 75.32 0.009421 0.021661 73.66 0.009444 0.020372 74.50.014245 0.02165 75.34 0.000189 0.015962 75.36 −0.00657 0.007298 76.2−0.00479 0.015426 77.04 −0.01947 0.007222 75.38 0.00775 0.015403 76.22−0.01023 0.006123 77.06 −0.01429 0.006107 75.4 −0.01596 0.00781 76.24−0.00414 0.017612 77.08 −0.01119 0.006611 75.42 0.005786 0.017688 76.26−0.00998 0.012601 77.1 0.000548 0.010133 75.44 −0.00042 0.016578 76.28−0.00768 0.00435 77.12 0.003225 0.01588 75.46 0.004511 0.018724 76.3−0.00167 0.007611 77.14 −0.00609 0.005142 75.48 −0.01762 0.011283 76.32−0.00379 0.00845 77.16 −0.01296 0.005151 75.5 0.001101 0.014012 76.34−0.00664 0.011242 77.18 −0.0055 0.010663 75.52 0.00574 0.017497 76.36−0.02645 −0.00648 77.2 −0.00545 0.012648 75.54 −0.0033 0.013834 76.380.015522 0.022495 77.22 −0.01825 0.003526 75.56 −0.02482 −0.00413 76.4−0.01563 0.008167 77.24 −0.01802 0.004277 75.58 −0.01922 0.005028 76.42−0.0219 0.004831 77.26 −0.0033 0.016099 75.6 0.012701 0.021662 76.44−0.02909 −0.00331 77.28 −0.00524 0.014741 75.62 −0.0169 0.004206 76.46−0.0191 −0.00119 77.3 −0.00641 0.009547 75.64 −0.01551 0.007909 76.48−0.00538 0.008944 77.32 0.022522 0.029297 75.66 −0.00022 0.020269 76.5−0.01552 0.004509 77.34 −0.01136 −0.00076 75.68 −0.00768 0.010892 76.52−0.01156 0.00597 77.36 −0.00868 0.008607 75.7 −7.5E−05 0.010543 76.54−0.02016 0.004811 77.38 −0.00904 0.010933 75.72 0.012717 0.021963 76.560.017721 0.029074 77.4 −0.01182 0.006468 75.74 −0.01179 0.005583 76.580.005128 0.013742 77.42 −0.00592 0.010858 75.76 −0.00038 0.015866 76.6−0.01556 0.005289 77.44 −0.02491 −0.00351 75.78 −0.00439 0.012803 76.62−0.00074 0.01778 77.46 0.008753 0.016336 75.8 0.005957 0.0219 76.64−0.0018 0.013833 77.48 0.01037 0.018498 75.82 −0.00914 0.00799 76.660.010439 0.021722 77.5 −0.00408 0.013161 75.84 −0.02394 −0.00178 76.68−0.01144 0.006734 77.52 −0.00558 0.012042 75.86 0.003225 0.015762 76.70.024544 0.026779 77.54 0.001117 0.013395 75.88 −0.00364 0.008528 76.72−0.02165 0.002953 77.56 −0.00929 0.007287 75.9 0.005275 0.016427 76.74−8.4E−05 0.015507 77.58 −0.02554 −0.00511 75.92 0.000806 0.017007 76.76−0.0104 0.009062 77.6 −0.00643 0.010959 75.94 −0.00818 0.01165 76.78−0.0158 0.001464 77.62 −0.00591 0.011292 75.96 0.006123 0.016614 76.8−0.01283 0.005883 77.64 −0.0118 0.007827 75.98 0.005379 0.022938 76.820.006057 0.023066 77.66 −0.00722 0.010825 76 0.008192 0.017193 76.840.000528 0.015438 77.68 0.015737 0.021871 76.02 −0.02308 0.002126 76.86−0.00296 0.012859 77.7 −0.01973 0.004371 76.04 −0.01369 0.004403 76.880.004206 0.01721 77.72 −0.01779 0.000168 76.06 0.010801 0.019502 76.90.00036 0.016318 77.74 0.000063 0.015281 76.08 −0.03188 −0.00701 76.920.026267 0.031393 77.76 0.026505 0.029405 76.1 0.001851 0.017003 76.94−0.00337 0.011988 77.78 −0.01186 0.003834 76.12 −0.02699 0.000702 76.96−0.00145 0.020747 77.8 −0.00483 0.012022 76.14 −0.01059 0.005237 76.98−9E−06 0.012446 77.82 0.017313 0.026036 76.16 0.007958 0.023313 77−0.01589 0.011118 77.84 0.003782 0.017035 76.18 −0.01506 0.004211 77.02−0.01711 0.004194 77.86 0.009604 0.018808 77.88 −0.00184 0.018662 78.720.007191 −0.0087 79.56 −0.02089 −0.00223 77.9 −0.01537 0.002902 78.740.018898 −0.0141 79.58 0.012281 −0.00037 77.92 0.020522 0.027597 78.760.02126 −0.01585 79.6 0.017802 −0.00709 77.94 0.001329 0.012095 78.780.018015 −0.01633 79.62 0.020594 −0.0126 77.96 −0.02251 −0.00247 78.80.000369 −0.02239 79.64 0.013987 −0.00799 77.98 −0.00644 0.006581 78.820.008149 −0.00372 79.66 0.002626 0.005046 78 −0.00834 0.008939 78.84−0.00408 0.007266 79.68 −0.00059 0.022545 78.02 −0.00497 0.010338 78.86−0.0167 0.013919 79.7 −0.02048 0.015497 78.04 0.013523 0.023083 78.88−0.02622 0.015294 79.72 −0.01966 0.015213 78.06 −0.0163 0.005634 78.9−0.02874 0.014231 79.74 −0.0196 0.003299 78.08 0.000044 0.016567 78.92−0.00915 0.01929 79.76 0.00424 −0.00253 78.1 −0.01568 0.00524 78.940.006916 0.007089 79.78 0.01589 −0.01024 78.12 −0.01293 0.008138 78.960.012894 −0.00366 79.8 0.020931 −0.01128 78.14 0.001402 0.017488 78.980.00407 −0.01638 79.82 0.005017 −0.01623 78.16 −0.01381 0.010119 790.011158 −0.01199 79.84 0.008702 −0.00547 78.18 −0.01718 0.00626 79.020.001297 −0.01188 79.86 −0.02099 −0.01801 78.2 −0.00875 0.011071 79.040.004679 −0.00439 79.88 −0.01592 −0.00254 78.22 −0.02861 0.000243 79.060.00133 0.003809 79.9 −0.00453 0.014132 78.24 −0.00887 0.017764 79.08−0.02407 −0.00934 79.92 −0.02487 0.012669 78.26 0.003853 0.026709 79.1−0.01755 0.001605 79.94 −0.01223 0.022256 78.28 −0.00507 0.023292 79.12−0.00058 0.019472 79.96 −0.01926 0.016773 78.3 0.001751 0.024211 79.140.001419 0.021999 79.98 −0.02258 0.000593 78.32 −0.01985 0.012385 79.16−0.01155 0.016978 80 0.000237 0.002955 78.34 −0.01375 0.019513 79.18−0.00865 0.023229 80.02 0.01273 −0.00391 78.36 −0.01777 0.016914 79.2−0.01195 0.021784 80.04 0.018044 −0.00354 78.38 −0.02436 0.012993 79.22−0.01502 0.022811 80.06 −0.00323 −0.0187 78.4 −0.0162 0.021394 79.24−0.018 0.021558 80.08 −0.00759 −0.00819 78.42 −0.02294 0.01656 79.26−0.01757 0.022071 80.1 0.006314 0.002195 78.44 −0.01895 0.017386 79.28−0.02135 0.016838 80.12 −0.01023 −0.0067 78.46 −0.02208 0.01011 79.3−0.01464 0.016572 80.14 0.010345 0.013687 78.48 −0.00259 0.008947 79.32−0.01262 0.005841 80.16 −0.00372 0.009841 78.5 0.002149 −0.00952 79.34−0.0056 −0.01475 80.18 −0.01198 0.005712 78.52 0.017009 −0.01464 79.360.012275 −0.01833 80.2 0.013048 0.019357 78.54 0.021236 −0.01419 79.380.02641 −0.01498 80.22 −0.01075 0.00802 78.56 0.011399 −0.01935 79.40.019404 −0.01433 80.24 −0.00867 0.010912 78.58 −0.00124 −0.0098 79.420.008627 −0.01511 80.26 −0.01974 −0.00085 78.6 −0.01919 0.013924 79.440.001876 −0.00853 80.28 −0.01627 0.005168 78.62 −0.02434 0.017647 79.460.008946 0.012943 80.3 0.015453 0.030757 78.64 −0.0197 0.020496 79.48−0.01571 0.015389 80.32 0.006944 0.018258 78.66 −0.02609 0.015003 79.5−0.00501 0.028862 80.34 0.002252 0.013367 78.68 −0.0197 0.014315 79.52−0.01346 0.023834 80.36 −0.02864 0.002757 78.7 −0.00904 0.005486 79.54−0.02277 0.012051 80.38 0.005332 0.019691 80.4 −0.01361 0.007605 81.240.0006 0.013516 82.08 0.002017 0.025698 80.42 −0.03777 −0.00902 81.260.003097 0.019475 82.1 −0.01517 0.013168 80.44 0.008347 0.019623 81.28−0.00594 0.009298 82.12 −0.012 0.017844 80.46 0.000605 0.018426 81.3−0.02715 −0.00127 82.14 −0.01258 0.021914 80.48 −0.00453 0.015727 81.32−0.00566 0.007558 82.16 −0.0146 0.021157 80.5 0.00178 0.016738 81.340.016402 0.022438 82.18 −0.01939 0.017505 80.52 0.001599 0.014143 81.36−0.00285 0.01081 82.2 −0.01988 0.014184 80.54 0.017051 0.020374 81.38−0.01031 0.003711 82.22 −0.01979 0.009335 80.56 0.004911 0.016741 81.4−0.01184 0.008188 82.24 −0.01314 0.00266 80.58 −0.02545 −0.00284 81.420.010211 0.015732 82.26 0.008403 −0.00104 80.6 0.02146 0.027564 81.44−0.01576 0.003584 82.28 0.0181 −0.00837 80.62 −0.01594 0.008507 81.460.016583 0.027899 82.3 0.027382 −0.00963 80.64 0.011771 0.025711 81.48−0.01393 0.00843 82.32 0.031427 −0.01157 80.66 −0.01242 0.003576 81.5−0.02545 −0.00322 82.34 0.017673 −0.01616 80.68 −0.00772 0.006757 81.52−0.00341 0.00833 82.36 0.010957 −0.01556 80.7 −0.00891 0.009683 81.54−0.00633 0.01071 82.38 −0.01155 −0.01559 80.72 −0.00087 0.014628 81.560.005811 0.021235 82.4 0.010044 0.017002 80.74 0.006032 0.019725 81.58−0.03678 −0.01049 82.42 −0.01028 0.009379 80.76 −0.01169 0.008864 81.6−0.01696 0.003118 82.44 −0.01773 0.014069 80.78 −0.00116 0.017818 81.62−0.00556 0.009578 82.46 −0.02392 0.00843 80.8 −0.02019 0.002062 81.64−0.00053 0.012015 82.48 −0.0149 0.00896 80.82 −0.00327 0.018613 81.660.007952 0.021187 82.5 −0.0121 −0.00255 80.84 −0.01097 0.009987 81.68−0.01913 0.002839 82.52 0.008245 −0.00475 80.86 0.025667 0.030699 81.7−0.00831 0.011703 82.54 0.025355 −0.00754 80.88 −0.00705 0.008271 81.720.012455 0.025111 82.56 0.020339 −0.01468 80.9 −0.00393 0.016074 81.74−0.00908 0.011575 82.58 0.020487 −0.01624 80.92 −0.00524 0.007185 81.76−0.00852 0.009838 82.6 0.022577 −0.0128 80.94 0.000416 0.012245 81.78−0.0087 0.013308 82.62 −0.00295 −0.02408 80.96 −0.01477 0.00926 81.8−0.03016 −0.00373 82.64 0.014418 −0.00493 80.98 0.00003 0.017227 81.820.004042 0.021617 82.66 0.004616 0.004199 81 −0.01045 0.007013 81.84−0.00313 0.01167 82.68 −0.00187 −0.00513 81.02 −0.02648 −0.00525 81.86−0.00731 0.008509 82.7 −0.00063 0.007602 81.04 −0.0139 0.005042 81.880.004862 0.015862 82.72 0.018716 0.014814 81.06 −0.0153 0.008774 81.9−0.00785 0.008435 82.74 0.000866 0.007645 81.08 −0.01086 0.009976 81.92−0.01776 0.006005 82.76 0.016424 0.013653 81.1 −0.0065 0.012415 81.94−0.0114 0.013956 82.78 0.011026 0.012478 81.12 −0.01438 0.003962 81.960.005265 0.019843 82.8 0.001259 0.006019 81.14 −0.01351 0.011399 81.980.002375 0.02104 82.82 −0.00327 0.00952 81.16 0.003909 0.019152 820.001069 0.014481 82.84 −0.01055 0.000956 81.18 −0.00678 0.01071 82.02−0.00611 0.01752 82.86 0.009042 0.01583 81.2 −0.00811 0.007329 82.04−0.00236 0.020454 82.88 −0.01373 0.007157 81.22 −0.006 0.01554 82.06−0.00806 0.017589 82.9 0.017127 0.021009 82.92 −0.0066 0.00479 83.76−0.00877 0.023119 84.6 −0.01432 0.006105 82.94 −0.00919 0.006607 83.78−0.01459 0.021729 84.62 −0.00494 0.011458 82.96 0.008873 0.019848 83.8−0.0127 0.026167 84.64 0.005374 0.016712 82.98 −0.02077 0.001812 83.82−0.02079 0.020095 84.66 −0.00273 0.009397 83 −0.00234 0.013582 83.84−0.02203 0.019169 84.68 −0.00435 0.013315 83.02 −0.0005 0.013309 83.86−0.01869 0.021264 84.7 −0.01261 0.007823 83.04 0.015869 0.025074 83.88−0.02467 0.015876 84.72 0.014781 0.025645 83.06 0.004054 0.0184 83.9−0.02718 0.009861 84.74 −0.01745 0.007137 83.08 −0.01249 0.001874 83.92−0.02173 0.000199 84.76 −0.01266 0.003484 83.1 −0.00231 0.011938 83.94−0.00473 −0.01229 84.78 −0.0064 0.014525 83.12 −0.02123 −0.00263 83.960.009241 −0.01816 84.8 −0.02988 −0.00641 83.14 0.000488 0.011457 83.980.012346 −0.01928 84.82 −0.00496 0.01439 83.16 0.010234 0.021387 840.011639 −0.01522 84.84 −0.01295 0.008033 83.18 0.009097 0.016937 84.020.000734 −0.01586 84.86 0.002212 0.020779 83.2 0.017011 0.026695 84.04−0.00142 −0.00518 84.88 −0.00808 0.010644 83.22 −0.02028 0.002549 84.06−0.00797 0.000458 84.9 0.00602 0.019865 83.24 −0.00175 0.015827 84.08−0.01216 0.011627 84.92 −0.00963 0.008335 83.26 −0.016 0.001993 84.1−0.02249 0.017182 84.94 −0.01132 0.004019 83.28 −0.01193 0.006691 84.12−0.02357 0.018229 84.96 0.021502 0.03385 83.3 −0.01605 0.004954 84.14−0.03103 0.01323 84.98 −0.00458 0.013863 83.32 −0.00582 0.006417 84.16−0.02632 0.012202 85 0.004236 0.018145 83.34 −0.0174 0.004893 84.18−0.0156 0.004664 85.02 −0.0078 0.013535 83.36 0.001895 0.016242 84.20.000978 −0.00622 85.04 0.006492 0.018278 83.38 −0.00685 0.010399 84.220.008909 −0.01293 85.06 −0.00537 0.008111 83.4 −0.0051 0.012101 84.240.009579 −0.01496 85.08 0.00162 0.015566 83.42 −0.02105 0.002729 84.260.010208 −0.0117 85.1 −0.01392 0.010304 83.44 −0.00812 0.009554 84.280.011138 −0.00853 85.12 −0.01516 0.007288 83.46 −0.00652 0.010786 84.3−0.00359 −0.01429 85.14 −0.01321 0.00846 83.48 −0.00683 0.008192 84.32−0.0057 −0.00759 85.16 −0.01542 0.008701 83.5 −0.01423 0.006632 84.34−0.00407 −0.00612 85.18 −0.00271 0.013176 83.52 −0.01402 0.009324 84.36−0.01168 −0.00165 85.2 −0.01518 0.00215 83.54 −0.00111 0.009031 84.38−0.00928 −0.00405 85.22 −0.00838 0.010721 83.56 −0.01861 0.004528 84.4−0.01923 −0.00162 85.24 −0.00932 0.007547 83.58 0.016631 0.023745 84.42−0.01987 −0.00652 85.26 0.001402 0.019115 83.6 −0.03343 −0.00257 84.44−0.01244 0.006912 85.28 −0.00026 0.013711 83.62 −0.01078 0.01352 84.46−0.01213 0.000045 85.3 −0.00553 0.011417 83.64 −0.00598 0.012655 84.48−0.00413 0.009246 85.32 0.006115 0.020666 83.66 0.003319 0.021855 84.50.006 0.011031 85.34 −0.01341 0.007383 83.68 −0.01571 0.013511 84.520.001152 0.011609 85.36 0.010339 0.022454 83.7 −0.00252 0.024724 84.540.002596 0.013614 85.38 0.004204 0.017827 83.72 −0.00146 0.024241 84.56−0.00581 0.011281 85.4 −0.01045 0.00362 83.74 −0.00943 0.022385 84.580.012656 0.019147 85.42 0.000073 0.01195 85.44 −0.00605 0.016953 86.280.013145 0.013772 87.12 0.002148 −0.02141 85.46 −0.02127 0.007702 86.3−0.00311 0.003516 87.14 0.004706 −0.00502 85.48 0.004518 0.018472 86.32−0.0161 0.003563 87.16 −0.00795 −0.00808 85.5 −0.0007 0.018914 86.340.001678 0.009644 87.18 0.000101 0.009037 85.52 −0.00994 0.016789 86.36−0.01502 0.002584 87.2 −0.01414 0.009228 85.54 0.001819 0.022792 86.380.016947 0.020057 87.22 −0.01695 0.014615 85.56 0.007802 0.028315 86.40.006355 0.019617 87.24 −0.02352 0.0164 85.58 −0.01947 0.012604 86.420.014483 0.019568 87.26 −0.01827 0.016311 85.6 −0.00981 0.019515 86.44−0.02293 0.000771 87.28 −0.01341 0.014397 85.62 −0.00409 0.023238 86.460.007605 0.015984 87.3 −0.01136 0.003551 85.64 −0.01565 0.012836 86.480.001523 0.016154 87.32 −0.00886 −0.01093 85.66 −0.02645 0.011131 86.5−0.0126 −0.00214 87.34 0.017804 −0.00272 85.68 −0.02193 0.01913 86.520.000189 0.013251 87.36 0.004144 −0.01405 85.7 −0.01981 0.020986 86.540.006783 0.021185 87.38 0.024165 0.002282 85.72 −0.02396 0.017101 86.56−0.03118 −0.01046 87.4 0.020472 0.008084 85.74 −0.01554 0.018852 86.580.005462 0.012009 87.42 0.008997 0.003614 85.76 −0.01981 0.008863 86.6−0.00277 0.013318 87.44 0.002024 0.005284 85.78 −0.01688 −0.00221 86.620.003658 0.016223 87.46 −0.00384 0.002823 85.8 0.00677 −0.00961 86.64−0.01002 0.013221 87.48 −0.00438 0.005559 85.82 0.018532 −0.01371 86.660.001991 0.018314 87.5 −0.01248 −0.00186 85.84 0.013341 −0.02206 86.68−0.01274 0.006648 87.52 −0.01713 0.006655 85.86 0.024505 −0.0172 86.7−0.00273 0.015258 87.54 −0.01756 −0.00093 85.88 0.011843 −0.0216 86.72−0.02691 0.000167 87.56 −0.01116 0.004867 85.9 0.000571 −0.02274 86.74−0.00024 0.01241 87.58 −0.0119 0.007589 85.92 0.005848 −0.00607 86.76−0.01734 0.006992 87.6 −0.01565 −0.00228 85.94 −0.00855 0.003032 86.78−0.01299 0.015511 87.62 0.000785 0.019942 85.96 −0.02597 0.006945 86.8−0.03009 −0.00268 87.64 −0.00045 0.01693 85.98 −0.01773 0.020508 86.82−0.019 0.007149 87.66 0.015969 0.023929 86 −0.02714 0.01067 86.840.00461 0.025216 87.68 −0.01797 0.004781 86.02 −0.02394 0.009303 86.860.002188 0.027547 87.7 −0.01715 0.000256 86.04 −0.01079 0.008743 86.88−0.02032 0.008181 87.72 0.024931 0.029328 86.06 −0.00045 −0.00558 86.9−0.00848 0.022951 87.74 −0.00467 0.011173 86.08 0.013388 −0.01401 86.92−0.00995 0.019673 87.76 0.016134 0.030171 86.1 0.025665 −0.01155 86.94−0.00586 0.026855 87.78 0.013591 0.02103 86.12 0.013012 −0.02147 86.96−0.01848 0.021174 87.8 −0.00571 0.009814 86.14 0.008376 −0.02425 86.98−0.02591 0.014491 87.82 0.000579 0.01634 86.16 0.008398 −0.02213 87−0.02067 0.014025 87.84 −0.00816 0.011755 86.18 0.006041 −0.01482 87.02−0.01003 0.008706 87.86 0.004885 0.014464 86.2 0.004402 −0.01027 87.040.014196 0.006898 87.88 0.007858 0.022793 86.22 0.00421 −0.00204 87.060.024386 −0.00502 87.9 −0.00226 0.015122 86.24 0.002181 −0.0082 87.080.016246 −0.01578 87.92 0.007361 0.019018 86.26 0.001415 0.005602 87.10.01182 −0.01516 87.94 −0.00658 0.010505 87.96 0.002596 0.015235 88.80.017153 0.019443 89.64 −0.02588 0.000776 87.98 −0.00231 0.011788 88.82−0.00621 0.012169 89.66 −0.00164 0.013302 88 −0.00906 0.006049 88.840.003314 0.016483 89.68 0.005274 0.02168 88.02 −0.02526 −0.00083 88.86−0.0107 0.003272 89.7 −0.00254 0.009249 88.04 0.011581 0.019903 88.880.005638 0.019383 89.72 −0.01147 0.010923 88.06 −0.00989 0.007925 88.9−0.01379 0.006259 89.74 0.012789 0.022655 88.08 −0.00894 0.006854 88.920.001536 0.015461 89.76 0.014879 0.017936 88.1 −0.00706 0.008968 88.94−0.00197 0.016847 89.78 −0.0072 0.009961 88.12 0.002387 0.017462 88.96−0.00937 0.006794 89.8 0.00814 0.02357 88.14 −0.0019 0.008946 88.980.004643 0.014181 89.82 −0.00707 0.006861 88.16 −0.01639 0.002027 890.005965 0.020546 89.84 −0.00661 0.012538 88.18 −0.01685 0.003751 89.02−0.00423 0.013167 89.86 0.001584 0.017567 88.2 0.009446 0.022728 89.04−0.01244 0.008095 89.88 −0.00699 0.011558 88.22 0.001478 0.014774 89.06−0.01785 0.004505 89.9 −0.01167 0.006483 88.24 0.000297 0.014803 89.08−0.00203 0.017489 89.92 0.023649 0.026408 88.26 0.011134 0.024228 89.1−0.01013 0.00998 89.94 −0.01065 0.003718 88.28 −0.00346 0.017528 89.120.002643 0.015849 89.96 −0.00437 0.011189 88.3 −0.00331 0.017655 89.14−0.01141 0.013014 89.98 −0.00617 0.007667 88.32 −0.00692 0.01357 89.160.009671 0.024935 90 −0.02426 −0.00405 88.34 0.000427 0.013842 89.18−0.01817 0.00285 90.02 −7E−06 0.010775 88.36 −0.00554 0.012335 89.2−0.01904 0.001068 90.04 −0.01148 0.006576 88.38 −0.01418 0.000788 89.22−0.01126 0.004895 90.06 0.005918 0.014726 88.4 0.009786 0.016078 89.240.01103 0.018255 90.08 −0.00431 0.00769 88.42 −0.00043 0.01575 89.260.005596 0.01367 90.1 −0.02011 −0.00036 88.44 0.006206 0.018073 89.28−0.00137 0.016359 90.12 −0.00448 0.011677 88.46 0.01435 0.024807 89.3−0.01523 0.007774 90.14 −0.0104 0.005563 88.48 −0.00221 0.01179 89.320.01167 0.01828 90.16 0.020222 0.023218 88.5 0.002083 0.012654 89.340.006432 0.025125 90.18 −0.00443 0.00521 88.52 0.005693 0.020671 89.36−0.01065 0.011621 90.2 0.011742 0.019435 88.54 0.005739 0.019545 89.380.005309 0.021688 90.22 −0.00238 0.016925 88.56 −0.01776 0.006118 89.4−0.01313 0.009759 90.24 −0.00433 0.015195 88.58 −0.00321 0.010431 89.420.003052 0.017215 90.26 −0.00734 0.0131 88.6 −0.00963 0.009323 89.44−0.00429 0.012135 90.28 −0.02347 −0.00121 88.62 −0.00103 0.008543 89.46−0.00133 0.014216 90.3 −0.0017 0.010209 88.64 −0.00546 0.010764 89.48−0.01191 0.004246 90.32 −0.00446 0.006142 88.66 −0.00984 0.008155 89.50.016384 0.030324 90.34 −0.01142 0.011989 88.68 −0.00052 0.015999 89.520.006655 0.015242 90.36 0.002501 0.017676 88.7 −0.00492 0.017481 89.54−0.0019 0.010947 90.38 −0.02856 −0.00186 88.72 0.027867 0.029536 89.56−0.02067 0.001522 90.4 −0.00632 0.007122 88.74 −0.00999 0.007538 89.58−0.01371 0.00795 90.42 −0.00759 0.007806 88.76 −0.00045 0.012757 89.6−0.03057 −0.0022 90.44 −0.00036 0.013945 88.78 −0.00367 0.01475 89.620.01032 0.018621 90.46 −0.03349 −0.00595 90.48 −0.00656 0.011259 91.32−0.00037 0.017141 92.16 −0.02234 −0.00236 90.5 −0.02447 −0.00076 91.34−0.01181 0.005604 92.18 −0.00393 0.007137 90.52 0.010318 0.020981 91.36−0.0218 −0.00031 92.2 −0.00976 0.005943 90.54 −0.01001 0.010745 91.38−0.0119 0.006317 92.22 −0.00158 0.010607 90.56 0.010035 0.025269 91.40.005446 0.02133 92.24 −0.01497 0.007923 90.58 0.007286 0.015892 91.42−0.01182 0.007892 92.26 0.003957 0.013401 90.6 −0.00807 0.009989 91.44−0.016 0.005633 92.28 −0.00878 0.005291 90.62 0.008209 0.018393 91.46−0.00144 0.016674 92.3 −0.00649 0.012994 90.64 −0.00978 0.004064 91.48−0.00834 0.00876 92.32 −0.02434 −0.00506 90.66 −0.00567 0.015367 91.50.001963 0.011171 92.34 −0.00655 0.006006 90.68 −0.00814 0.013789 91.52−0.01012 0.013185 92.36 −0.00718 0.012062 90.7 −0.00991 0.009934 91.540.016591 0.025673 92.38 −0.01509 0.0045 90.72 −0.01475 0.001774 91.56−0.00033 0.018007 92.4 0.009706 0.017495 90.74 −0.01172 0.016758 91.580.008808 0.018747 92.42 0.014932 0.024001 90.76 −0.00877 0.006296 91.6−0.00108 0.017486 92.44 0.001383 0.011733 90.78 0.007077 0.021212 91.62−0.00371 0.018634 92.46 −0.00754 0.00814 90.8 −0.00283 0.010971 91.64−0.00855 0.01203 92.48 0.03364 0.026474 90.82 −0.00243 0.015305 91.66−0.00836 0.005923 92.5 −0.00431 0.010538 90.84 0.00041 0.019241 91.68−0.0106 0.005394 92.52 0.004286 0.01299 90.86 0.004265 0.016742 91.7−0.0023 0.01442 92.54 −0.00799 0.009992 90.88 −0.00747 0.007768 91.720.002803 0.016435 92.56 0.012932 0.022878 90.9 −0.00321 0.013472 91.74−0.00626 0.013165 92.58 −0.0148 0.004956 90.92 0.016085 0.027818 91.76−0.01155 0.009757 92.6 −0.01048 0.006947 90.94 −0.02508 −0.00086 91.78−0.01391 0.007977 92.62 −0.0194 −0.00283 90.96 −0.00377 0.013107 91.80.000091 0.013402 92.64 −0.00408 0.010232 90.98 −0.0208 0.005208 91.82−0.00504 0.015388 92.66 −0.01524 0.00535 91 0.037425 0.035216 91.84−0.01583 0.003168 92.68 0.002246 0.013341 91.02 −0.00155 0.012794 91.860.005365 0.014744 92.7 0.0038 0.019411 91.04 −0.00261 0.013818 91.88−0.02528 −0.00497 92.72 −0.00469 0.014537 91.06 0.001771 0.013968 91.90.006403 0.016455 92.74 0.016175 0.016743 91.08 −0.0096 0.005273 91.92−0.01059 0.008905 92.76 0.005706 0.019522 91.1 −0.00865 0.008971 91.94−0.01645 0.005791 92.78 0.00874 0.019941 91.12 0.004783 0.017934 91.96−0.00824 0.014027 92.8 −0.0342 −0.0099 91.14 −0.00908 0.01095 91.980.007091 0.022271 92.82 0.006438 0.013341 91.16 0.014322 0.023846 92−0.0056 0.009453 92.84 0.013342 0.02232 91.18 −0.00733 0.008356 92.020.002611 0.00924 92.86 −0.00665 0.013501 91.2 0.018566 0.028553 92.04−0.00458 0.016519 92.88 −0.01185 0.010405 91.22 −0.00252 0.014053 92.06−0.01167 0.005253 92.9 0.001541 0.012047 91.24 −0.00188 0.016565 92.080.002284 0.008293 92.92 −0.01275 0.006972 91.26 0.004981 0.017588 92.1−0.03021 −0.00493 92.94 0.010173 0.015722 91.28 −0.00501 0.009944 92.120.002725 0.013863 92.96 −0.01044 0.00751 91.3 −0.01001 0.008749 92.14−0.01464 0.002114 92.98 −0.01159 0.013476 93 −0.00977 0.003812 93.840.009397 0.017396 94.68 −0.01189 0.012787 93.02 −0.02728 0.000927 93.86−0.00201 0.009651 94.7 −0.0147 0.013795 93.04 0.017043 0.02111 93.880.002365 0.016807 94.72 −0.02648 0.008367 93.06 −0.01648 0.002594 93.90.011285 0.01862 94.74 −0.01899 0.015768 93.08 −0.02611 −0.00059 93.920.000441 0.01608 94.76 −0.01859 0.017224 93.1 −0.01872 0.004065 93.94−0.01294 0.005954 94.78 −0.01831 0.019365 93.12 0.009653 0.021291 93.96−8.7E−05 0.011549 94.8 −0.032 0.00861 93.14 −0.00602 0.012844 93.98−0.01413 0.007593 94.82 −0.01597 0.020651 93.16 −0.0093 0.014221 94−0.00143 0.01382 94.84 −0.0217 0.01289 93.18 0.009397 0.02152 94.02−0.00066 0.013175 94.86 −0.03039 −0.0007 93.2 −0.02351 0.003003 94.040.00817 0.021327 94.88 −0.0076 0.005931 93.22 −0.01243 0.005577 94.06−0.01758 0.005248 94.9 0.017245 −0.00113 93.24 0.001363 0.013466 94.08−0.0027 0.008285 94.92 0.026285 −0.00905 93.26 −0.01968 −0.00299 94.1−0.00602 0.011342 94.94 0.0145 −0.01988 93.28 −0.03013 −0.0023 94.12−0.00514 0.010048 94.96 0.0222 −0.01453 93.3 0.002845 0.011472 94.14−0.00397 0.006079 94.98 0.01716 −0.01174 93.32 0.018995 0.020201 94.160.008634 0.019766 95 −0.00508 −0.01172 93.34 0.010549 0.022875 94.180.003734 0.0138 95.02 0.002951 0.002351 93.36 0.004251 0.014681 94.2−0.01603 0.000736 95.04 −0.01787 −0.00522 93.38 −0.01883 −0.00528 94.22−0.00472 0.011402 95.06 −0.01439 0.00858 93.4 0.001557 0.011899 94.24−0.00878 0.013639 95.08 −0.01065 0.012479 93.42 0.020871 0.026288 94.26−0.01888 0.001362 95.1 −0.00713 0.021446 93.44 −0.00405 0.010946 94.280.003616 0.01581 95.12 −0.02316 0.013925 93.46 −0.00819 0.012089 94.3−0.01929 −0.0001 95.14 −0.02625 0.015742 93.48 −0.00903 0.010638 94.320.014444 0.014736 95.16 −0.02713 0.014925 93.5 −0.00957 0.010535 94.340.003362 0.021684 95.18 −0.03333 0.006785 93.52 0.003931 0.015278 94.360.01309 0.018782 95.2 −0.0137 0.017007 93.54 −0.00958 0.010639 94.38−0.01333 0.007945 95.22 −0.00692 0.011962 93.56 −0.01013 0.010695 94.40.009827 0.016593 95.24 −0.01582 0.008026 93.58 −0.00406 0.015074 94.420.000857 0.017108 95.26 −0.0235 0.001787 93.6 0.001499 0.01712 94.44−0.0064 0.00536 95.28 −0.01053 0.00372 93.62 −0.01132 0.002472 94.46−0.00486 0.009009 95.3 0.00483 −4.5E−05 93.64 −0.03153 −0.00171 94.48−0.00751 0.010624 95.32 0.010134 −0.00925 93.66 −0.03303 −0.01212 94.5−0.01899 0.002567 95.34 0.020663 −0.01364 93.68 0.000159 0.016635 94.520.019313 0.034425 95.36 0.022731 −0.01354 93.7 −0.00087 0.013649 94.540.008119 0.021532 95.38 0.011812 −0.01582 93.72 −0.00334 0.011179 94.56−0.03181 −0.00192 95.4 −0.00262 −0.01596 93.74 −0.0135 0.00358 94.58−0.02795 0.000512 95.42 −0.00153 −0.01031 93.76 −0.00653 0.012206 94.6−0.00403 0.014726 95.44 −0.00295 −0.00737 93.78 −0.01347 0.001919 94.620.012935 0.028182 95.46 −0.00725 0.005015 93.8 −0.02147 0.002208 94.64−0.00588 0.012211 95.48 −0.00732 0.005041 93.82 0.000788 0.014145 94.66−0.00043 0.020238 95.5 −0.02051 0.00303 95.52 −0.02776 0.007259 96.360.000488 0.015398 97.2 −0.00398 0.009137 95.54 −0.01598 0.017559 96.380.014841 0.021034 97.22 −0.00222 0.011986 95.56 −0.02931 0.011751 96.4−0.03167 −0.00713 97.24 −0.00632 0.00794 95.58 −0.0169 0.017071 96.42−0.01662 −0.00119 97.26 0.014781 0.024531 95.6 −0.01135 0.013272 96.44−0.00136 0.01427 97.28 −0.01371 0.00717 95.62 0.008339 0.011926 96.46−0.00838 0.012509 97.3 0.000306 0.015452 95.64 0.014559 −0.00544 96.48−0.02336 −0.00082 97.32 0.002514 0.016285 95.66 0.010931 −0.01359 96.50.022216 0.027028 97.34 −0.00643 0.013339 95.68 0.025076 −0.00446 96.52−0.00397 0.013703 97.36 0.008754 0.015845 95.7 0.010887 −0.00705 96.54−0.00997 0.005578 97.38 −0.01948 0.002572 95.72 0.000276 −0.00981 96.56−0.00457 0.010438 97.4 −0.00784 0.004465 95.74 −0.00591 −0.00504 96.580.018634 0.021874 97.42 0.026494 0.030718 95.76 −0.01359 −0.00745 96.60.03265 0.034483 97.44 0.020896 0.030357 95.78 −0.00375 0.004032 96.620.002709 0.01983 97.46 0.002699 0.015392 95.8 0.020589 0.021199 96.64−0.02497 −0.00287 97.48 −0.0204 0.003685 95.82 0.001056 0.009056 96.66−0.01527 0.000748 97.5 0.004597 0.010975 95.84 −0.01457 −0.00118 96.68−0.00809 0.011409 97.52 −0.00133 0.013252 95.86 −0.01092 0.002145 96.7−0.01255 0.010797 97.54 −0.02556 −0.00515 95.88 0.041194 0.029969 96.72−8.8E−05 0.018356 97.56 0.005127 0.017028 95.9 −0.00246 0.012876 96.740.002456 0.007942 97.58 −0.02744 −0.00038 95.92 0.023196 0.029119 96.760.018321 0.024654 97.6 −0.01024 0.005713 95.94 −0.00226 0.014568 96.78−0.00737 0.003998 97.62 −0.00321 0.012341 95.96 −0.01742 0.002935 96.80.011062 0.01954 97.64 0.002554 0.019916 95.98 −0.00261 0.016495 96.82−0.00984 0.014959 97.66 0.00091 0.013798 96 0.010967 0.02195 96.84−0.00144 0.01588 97.68 −0.01281 0.007732 96.02 −0.01425 0.004313 96.860.006184 0.018104 97.7 −0.02171 0.00281 96.04 0.003763 0.017739 96.880.006517 0.016941 97.72 −0.00531 0.015187 96.06 −0.00756 0.007731 96.9−0.02209 0.006125 97.74 0.022015 0.020397 96.08 0.004358 0.01798 96.92−0.00848 0.006556 97.76 −0.03186 −0.00105 96.1 −0.03493 −0.00621 96.940.009841 0.028004 97.78 0.001821 0.018245 96.12 0.01099 0.017964 96.960.010933 0.017222 97.8 0.008969 0.021012 96.14 0.004917 0.016056 96.98−0.0009 0.016624 97.82 −0.00593 0.010264 96.16 −0.00975 0.008076 97−0.01845 0.004593 97.84 0.000766 0.015041 96.18 −0.01499 0.00945 97.02−0.02132 −0.0041 97.86 −0.01006 0.005704 96.2 −0.00982 0.009573 97.04−0.00024 0.014172 97.88 −0.01707 −0.0002 96.22 −0.0023 0.013396 97.06−0.00608 0.006352 97.9 −0.00737 0.001703 96.24 0.005115 0.021117 97.08−0.00465 0.011451 97.92 −0.01126 0.011801 96.26 −0.01047 0.008427 97.10.020227 0.024024 97.94 0.011739 0.021738 96.28 −0.0097 0.002165 97.120.008369 0.0187 97.96 0.02248 0.024454 96.3 −0.0105 0.005453 97.14−0.02794 −0.00043 97.98 −0.00437 0.014903 96.32 −0.02268 0.001266 97.16−0.0202 −0.00154 98 −0.02344 −0.00077 96.34 −0.01802 0.005726 97.180.022306 0.028938 98.02 −0.0236 0.001717 98.04 0.002901 0.013718 98.88−0.00597 0.008454 99.72 −0.00741 0.006961 98.06 −0.01196 0.00793 98.90.007109 0.01434 99.74 −0.01896 0.006195 98.08 0.004469 0.017296 98.920.00929 0.016896 99.76 0.00114 0.013893 98.1 −0.01177 0.0069 98.940.007131 0.015473 99.78 −0.00037 0.01289 98.12 0.000196 0.01108 98.960.011004 0.015958 99.8 0.005217 0.015818 98.14 −0.02324 0.001754 98.98−0.01444 0.004022 99.82 −0.00179 0.015437 98.16 −0.00746 0.013496 990.010033 0.02323 99.84 −0.02013 −0.00224 98.18 −0.00919 0.005154 99.020.004684 0.019776 99.86 −0.00088 0.016458 98.2 −0.03344 −0.00703 99.04−0.01486 0.004631 99.88 −0.00454 0.009234 98.22 −0.00339 0.009853 99.06−0.00768 0.00999 99.9 −0.02808 −0.00418 98.24 −0.02052 −0.0021 99.08−0.02031 0.009953 99.92 −0.01925 0.001305 98.26 −0.03006 −0.00746 99.1−0.00162 0.010631 99.94 0.010311 0.017051 98.28 0.00164 0.012673 99.12−0.0386 −0.00557 99.96 0.007433 0.022128 98.3 0.014273 0.020776 99.14−0.01507 0.005062 99.98 −0.01056 0.01018 98.32 0.006998 0.016568 99.16−0.00175 0.012583 100 −0.01744 −0.00014 98.34 0.003262 0.017708 99.18−0.02435 −0.00527 100.02 −0.00825 0.00988 98.36 −0.00383 0.013683 99.2−0.00527 0.009045 100.04 −0.01019 0.005338 98.38 0.002925 0.017607 99.220.007757 0.015674 100.06 −0.00381 0.010007 98.4 −0.00118 0.016687 99.240.006267 0.020987 100.08 −0.02345 −0.0068 98.42 −0.00222 0.013767 99.26−0.00152 0.007254 100.1 −0.00909 0.001209 98.44 −0.02168 0.006042 99.28−0.00143 0.010325 100.12 0.006211 0.017113 98.46 −0.00231 0.021138 99.30.000817 0.018159 100.14 0.004318 0.023212 98.48 −0.00923 0.008992 99.32−0.01391 0.004613 100.16 −0.00193 0.021418 98.5 0.000614 0.011492 99.340.003704 0.015594 100.18 −0.01934 0.005104 98.52 0.010107 0.026301 99.360.01366 0.020613 100.2 −0.00788 0.013122 98.54 0.00421 0.016297 99.380.029762 0.030156 100.22 −0.01541 0.002889 98.56 −0.01181 0.005763 99.40.008411 0.020473 100.24 −0.01637 0.011143 98.58 −0.00916 0.010457 99.42−0.00893 0.008739 100.26 −0.01762 0.011124 98.6 0.015388 0.022566 99.44−0.00248 0.007544 100.28 −0.00891 0.018841 98.62 −0.00934 0.008565 99.46−0.01309 0.004822 100.3 −0.01413 0.01281 98.64 0.001192 0.01252 99.480.014431 0.020727 100.32 −0.01579 0.01492 98.66 0.000053 0.015886 99.5−0.00117 0.01058 100.34 −0.02201 0.014733 98.68 −0.02442 −0.00271 99.52−0.03031 0.00101 100.36 −0.02077 0.014601 98.7 −0.03062 −0.00825 99.54−0.00732 0.010904 100.38 −0.01568 0.01562 98.72 0.007347 0.022286 99.56−0.01143 0.002656 100.4 −0.03081 0.012078 98.74 −0.00738 0.010671 99.580.006772 0.018867 100.42 −0.02337 0.016766 98.76 −0.00501 0.01438 99.60.010089 0.023518 100.44 −0.02411 0.015681 98.78 0.012455 0.022171 99.62−0.01458 0.011218 100.46 −0.03084 0.008382 98.8 −0.0312 −0.00595 99.640.006115 0.014539 100.48 −0.02927 0.006706 98.82 −0.01639 0.008919 99.66−0.01602 0.007622 100.5 −0.01335 0.004202 98.84 −0.01257 0.007097 99.680.010039 0.017619 100.52 −0.01337 −0.01113 98.86 −0.00595 0.008072 99.7−0.00936 0.012649 100.54 0.00845 −0.011 100.56 0.020217 −0.01445 101.40.00279 0.009523 102.24 −0.02418 0.005189 100.58 0.021811 −0.01344101.42 0.01701 0.025821 102.26 −0.01481 0.009586 100.6 0.009572 −0.01855101.44 −0.00091 0.015598 102.28 −0.01232 0.011661 100.62 0.00829−0.01411 101.46 0.0084 0.021568 102.3 −0.00444 0.019197 100.64 0.004338−0.00956 101.48 0.009606 0.020732 102.32 −0.01985 0.011859 100.660.006413 0.006565 101.5 −0.01853 0.001749 102.34 0.003785 0.027349100.68 −0.00806 −0.00156 101.52 0.00385 0.0194 102.36 −0.00722 0.016842100.7 −0.01107 −5.4E−05 101.54 −0.0189 0.002082 102.38 −0.01821 0.008098100.72 −0.01101 0.005605 101.56 −0.01289 0.004995 102.4 −0.0154 −0.0035100.74 −0.00956 0.017976 101.58 −0.0004 0.010492 102.42 −0.00231−0.00672 100.76 −0.02108 0.012889 101.6 0.008676 0.016839 102.440.008561 −0.00995 100.78 −0.01394 0.021431 101.62 0.007057 0.019061102.46 0.023654 −0.00916 100.8 −0.0345 0.00599 101.64 −0.00287 0.010566102.48 0.027756 −0.00688 100.82 −0.02887 0.008155 101.66 −0.013120.002488 102.5 −0.0056 −0.0234 100.84 −0.0225 0.00445 101.68 −0.02369−0.00073 102.52 0.020007 −0.0035 100.86 0.003469 0.006826 101.7 0.0057530.01568 102.54 −0.00377 −0.00563 100.88 −0.00075 −0.0099 101.72 −0.03254−0.00466 102.56 −0.00052 0.00088 100.9 0.016538 −0.00915 101.74 0.0012420.014457 102.58 −0.02149 −0.01682 100.92 0.013925 −0.01513 101.76−0.00255 0.013074 102.6 −0.01192 0.009421 100.94 0.0208 −0.01078 101.780.000222 0.017784 102.62 −0.00688 0.011326 100.96 0.006313 −0.0148 101.80.014923 0.025401 102.64 −0.01577 0.004302 100.98 0.022736 0.002303101.82 −0.00914 0.01277 102.66 −0.0065 0.016879 101 0.018185 0.009012101.84 −0.00271 0.007155 102.68 −0.01563 0.005697 101.02 −0.00369−0.0035 101.86 0.000434 0.018112 102.7 −0.00986 0.019887 101.04 −0.005570.003374 101.88 −0.01803 −0.00078 102.72 −0.00648 0.014725 101.060.002134 0.003779 101.9 −0.01303 0.002261 102.74 −0.0127 0.009003 101.080.013142 0.011529 101.92 −0.0082 0.01252 102.76 −0.01673 −0.00292 101.1−0.00095 0.005538 101.94 −0.01191 0.011698 102.78 −0.0091 −0.00829101.12 −0.01496 −0.00043 101.96 −0.0139 0.007765 102.8 0.010995 −0.0035101.14 −0.02177 −0.00263 101.98 0.000233 0.013011 102.82 0.023401−0.00055 101.16 0.010296 0.016799 102 −0.02164 0.001753 102.84 0.016137−0.00224 101.18 −0.02214 −0.00823 102.02 −0.01144 0.010082 102.860.014258 −0.0055 101.2 −0.00109 0.013985 102.04 0.024934 0.033074 102.880.020214 0.008698 101.22 −0.01383 0.004048 102.06 0.02058 0.028719 102.90.002262 −0.00348 101.24 −0.00574 0.012326 102.08 −0.00217 0.015068102.92 −0.00734 0.00147 101.26 −0.01744 0.004786 102.1 −0.02279 −0.00178102.94 −0.01204 0.001567 101.28 −0.00199 0.012136 102.12 0.010710.023104 102.96 0.013766 0.024248 101.3 −0.02616 −0.00055 102.14−0.00659 0.014765 102.98 0.011548 0.010935 101.32 −0.00112 0.014359102.16 0.006528 0.019852 103 −0.00767 0.00947 101.34 −0.00844 0.007451102.18 0.005214 0.021984 103.02 0.002277 0.010909 101.36 −0.001820.006139 102.2 −0.00252 0.01579 103.04 −0.00268 0.01495 101.38 0.0072730.01573 102.22 0.011032 0.026308 103.06 0.014563 0.02282 103.08 −0.002280.009512 103.92 −0.00162 0.016839 104.76 −0.01097 0.004048 103.1−0.00848 0.005677 103.94 −0.0044 0.010535 104.78 −0.01734 −0.00487103.12 0.001457 0.01729 103.96 −0.00904 0.012639 104.8 0.005059 0.020893103.14 −0.02928 −0.00741 103.98 0.019292 0.026893 104.82 −0.02719−0.00382 103.16 −0.00146 0.016224 104 0.006823 0.016577 104.84 0.0279410.027377 103.18 0.000894 0.013234 104.02 0.024846 0.027809 104.86−0.02168 −0.00202 103.2 0.010043 0.020246 104.04 −0.00274 0.016858104.88 −0.00789 0.008775 103.22 0.017581 0.025632 104.06 −0.006060.016738 104.9 −0.01106 0.007207 103.24 0.005112 0.015947 104.08−0.01725 0.002008 104.92 −0.01271 0.005004 103.26 −0.01533 0.006001104.1 −0.00271 0.00665 104.94 −0.02582 −0.00081 103.28 −0.00774 0.011085104.12 −0.01218 0.009649 104.96 −0.0091 0.008136 103.3 0.002547 0.016729104.14 −0.01267 0.004647 104.98 −0.01127 0.004315 103.32 −0.01757−0.00266 104.16 −0.01189 0.006343 105 −0.00952 0.009554 103.34 0.0047970.017696 104.18 0.006122 0.01759 105.02 0.014727 0.026915 103.36−0.01248 0.005828 104.2 0.001244 0.009688 105.04 −0.01203 0.004252103.38 −0.02259 0.002359 104.22 −0.01046 0.006411 105.06 −0.001010.015911 103.4 −0.01627 0.00564 104.24 0.007301 0.017835 105.08 −0.011470.006287 103.42 −0.014 0.005837 104.26 −0.00894 0.006875 105.1 0.0080480.016688 103.44 −0.01025 0.009629 104.28 −0.00219 0.014347 105.12−0.00259 0.012667 103.46 0.020612 0.028264 104.3 −0.01257 0.00906 105.14−0.01152 0.005486 103.48 −0.00651 0.013675 104.32 −0.00129 0.013932105.16 −0.00556 0.014273 103.5 −0.01017 0.005929 104.34 0.0022770.014457 105.18 −0.02094 0.001476 103.52 0.022165 0.025516 104.36−0.02173 0.004884 105.2 −0.00773 0.003711 103.54 −0.00054 0.01383 104.38−0.01135 0.002577 105.22 −0.00493 0.015045 103.56 0.010574 0.01805 104.4−0.00307 0.014301 105.24 0.01473 0.023606 103.58 −0.015 0.003993 104.420.013413 0.02538 105.26 −0.02534 −0.00441 103.6 −0.00505 0.009703 104.440.017534 0.020664 105.28 0.009817 0.018103 103.62 −0.00791 0.007963104.46 −0.00498 0.012675 105.3 0.002523 0.01538 103.64 0.011568 0.022634104.48 0.002742 0.012835 105.32 −0.01831 0.002874 103.66 −0.004510.010203 104.5 0.016579 0.025526 105.34 −0.00515 0.01166 103.68 −0.02726−0.00169 104.52 0.0163 0.025226 105.36 −0.00583 0.01013 103.7 0.0024320.019483 104.54 −0.01483 0.00426 105.38 −0.00556 0.013808 103.72−0.01933 0.006833 104.56 −0.00117 0.014857 105.4 0.022348 0.02419 103.74−0.01712 0.006514 104.58 −0.00726 0.011542 105.42 0.000701 0.018064103.76 −0.00327 0.008674 104.6 0.019657 0.020512 105.44 −0.003450.007818 103.78 0.007754 0.02298 104.62 0.005145 0.012631 105.46−0.01037 0.007088 103.8 −0.00105 0.017256 104.64 0.010252 0.015038105.48 −0.0088 0.0088 103.82 −0.00204 0.015462 104.66 −0.00437 0.010066105.5 0.016801 0.021943 103.84 −0.01779 0.003513 104.68 −0.006640.009872 105.52 −0.00726 0.006799 103.86 −0.00126 0.016448 104.7−0.00302 0.01514 105.54 −0.01662 0.000558 103.88 −0.0042 0.012736 104.72−0.00881 0.009691 105.56 −0.00888 0.008363 103.9 0.024912 0.02706 104.740.013643 0.02061 105.58 −0.02103 0.004491 105.6 −0.00695 0.004723 106.44−0.01025 0.005792 107.28 0.000093 0.01587 105.62 −0.01978 0.002071106.46 0.015935 0.023187 107.3 0.001317 0.013097 105.64 −0.014330.002527 106.48 −0.00641 0.008815 107.32 −0.00214 0.00954 105.66−0.00086 0.013849 106.5 −0.00926 0.010544 107.34 0.004762 0.013939105.68 −0.01724 0.002792 106.52 0.00235 0.01222 107.36 −0.00895 0.006936105.7 −0.00682 0.009814 106.54 0.000722 0.015544 107.38 0.0028730.018754 105.72 0.01154 0.024135 106.56 −0.02454 0.000277 107.4 −0.02310.002322 105.74 0.006792 0.01505 106.58 −0.01313 0.00806 107.42 −0.017490.003518 105.76 −0.00051 0.016171 106.6 −0.01159 0.007252 107.440.007306 0.015903 105.78 −0.00798 0.015024 106.62 −0.007 0.009798 107.46−0.00648 0.010782 105.8 −0.01467 0.005263 106.64 −0.01539 0.006324107.48 0.009974 0.022881 105.82 −0.00021 0.013471 106.66 −0.001610.010584 107.5 −0.00434 0.012366 105.84 −0.01281 0.007098 106.680.007559 0.019995 107.52 −0.01813 0.00077 105.86 −0.00287 0.012804 106.70.019713 0.019549 107.54 −0.00476 0.011603 105.88 −0.01304 0.009589106.72 0.005422 0.020739 107.56 0.008645 0.015635 105.9 −0.0194 0.001311106.74 0.012828 0.020598 107.58 −0.01116 0.01196 105.92 −0.01548 0.00271106.76 −0.00224 0.018031 107.6 −0.01174 0.004426 105.94 0.0030440.011975 106.78 0.000332 0.008492 107.62 −0.01181 0.010725 105.96−0.00311 0.008514 106.8 0.019824 0.022045 107.64 −0.00267 0.015647105.98 0.01027 0.018259 106.82 −0.01073 0.001944 107.66 −0.003960.005611 106 −0.02273 −0.00077 106.84 0.002943 0.016006 107.68 0.0139040.023095 106.02 −0.00541 0.010651 106.86 −0.00795 0.011769 107.70.015494 0.025259 106.04 −0.00448 0.014334 106.88 0.019316 0.023791107.72 −0.00875 0.011387 106.06 −0.00705 0.008191 106.9 −0.005120.008858 107.74 0.000734 0.013469 106.08 −0.00778 0.008699 106.920.003515 0.015493 107.76 −0.00516 0.007431 106.1 −0.00543 0.010619106.94 −0.00798 0.012767 107.78 0.006383 0.016171 106.12 −0.007080.002089 106.96 −0.00589 0.011593 107.8 0.001612 0.01599 106.14 0.01710.024275 106.98 0.015292 0.017064 107.82 −0.00656 0.004029 106.160.006664 0.013506 107 −0.02189 −0.00096 107.84 0.004053 0.013097 106.18−0.01212 0.008006 107.02 0.001306 0.018677 107.86 −0.00683 0.009138106.2 0.013315 0.023662 107.04 −0.02379 −9.9E−05 107.88 −0.00353 0.00799106.22 0.001964 0.015711 107.06 0.015543 0.021567 107.9 −0.009 0.002188106.24 0.001313 0.015264 107.08 0.016741 0.0219 107.92 −0.00434 0.014196106.26 −0.00615 0.012186 107.1 −0.01182 0.009646 107.94 0.0138790.017398 106.28 0.006127 0.01508 107.12 0.007324 0.015652 107.96−0.00471 0.008151 106.3 0.013736 0.023342 107.14 −0.01597 0.002459107.98 −0.0053 0.011018 106.32 −0.02336 −0.00762 107.16 −0.013020.001835 108 −0.00028 0.014324 106.34 −0.01143 0.006585 107.18 −0.01422−0.00119 108.02 −0.0225 0.0024 106.36 −0.02982 −0.00649 107.2 −0.007840.013004 108.04 0.013148 0.01979 106.38 −0.00669 0.01116 107.22 0.004690.01752 108.06 −0.00057 0.013129 106.4 0.006944 0.018564 107.24 0.0083930.017361 108.08 −0.01603 0.007563 106.42 0.025858 0.032099 107.260.001263 0.006118 108.1 0.017029 0.021085 108.12 −0.02203 −0.00374108.96 −0.00153 0.011107 109.8 0.030086 0.030517 108.14 −0.021520.001365 108.98 0.001541 0.013965 109.82 −0.00374 0.013523 108.160.009679 0.014384 109 0.010388 0.019182 109.84 −0.00598 0.008651 108.180.01137 0.018989 109.02 −0.00213 0.012545 109.86 −0.00203 0.008283 108.20.0147 0.022243 109.04 −0.02775 −0.01038 109.88 −0.00794 0.001118 108.22−0.00767 0.009788 109.06 −0.00837 0.003427 109.9 −0.01771 0.004041108.24 0.007415 0.015997 109.08 −0.01041 0.006098 109.92 −0.005030.009698 108.26 −0.00933 0.014438 109.1 0.011133 0.017993 109.94−0.00659 0.008546 108.28 −0.02639 −0.00322 109.12 −0.01195 0.00976109.96 −0.01547 0.00564 108.3 0.009964 0.02262 109.14 0.002812 0.013271109.98 −0.03487 −0.01033 108.32 0.012484 0.023717 109.16 0.0168810.026923 110 0.004511 0.013785 108.34 −0.0006 0.012025 109.18 0.0276160.026246 110.02 −0.01145 0.004403 108.36 0.016505 0.015613 109.20.003956 0.016516 110.04 0.006491 0.017589 108.38 −0.00459 0.006864109.22 −0.00622 0.010415 110.06 0.004947 0.014058 108.4 0.0051360.018213 109.24 −0.02133 −0.00122 110.08 −0.0142 0.0088 108.42 0.0047790.015407 109.26 −0.00439 0.008423 110.1 0.006904 0.021072 108.44−0.00664 0.006897 109.28 0.006537 0.022502 110.12 −0.01271 0.005093108.46 0.010687 0.014099 109.3 −0.01852 0.000284 110.14 −0.03184 −0.0064108.48 −0.01282 0.008643 109.32 −0.01076 0.006959 110.16 −0.003270.008333 108.5 0.00435 0.01688 109.34 0.000146 0.014272 110.18 0.0016890.012681 108.52 −0.0068 0.008414 109.36 0.008017 0.020842 110.2 −0.009770.008915 108.54 −0.00787 0.005601 109.38 0.01654 0.022687 110.22−0.00121 0.007769 108.56 −7.3E−05 0.013434 109.4 −0.01611 0.010173110.24 −0.00596 0.00734 108.58 0.004902 0.013033 109.42 −0.03907−0.00938 110.26 0.004992 0.015123 108.6 0.005983 0.019497 109.44 −0.01070.007298 110.28 −0.011 0.011551 108.62 0.000281 0.012543 109.46 0.0006420.015886 110.3 −0.0089 0.007936 108.64 0.015066 0.015597 109.48 0.0018550.016886 110.32 0.006331 0.019944 108.66 0.011898 0.020802 109.50.001051 0.009562 110.34 −0.00018 0.016992 108.68 −0.03065 −0.00958109.52 0.006437 0.018612 110.36 −0.00632 0.014165 108.7 −0.02216−0.00055 109.54 −0.01005 0.010844 110.38 −0.00721 0.011609 108.72−0.00305 0.012811 109.56 0.000861 0.011649 110.4 −0.03421 −0.00494108.74 −0.01067 0.002516 109.58 0.002925 0.016154 110.42 −0.002570.019217 108.76 −0.0094 0.009585 109.6 −0.0064 0.012997 110.44 −0.018210.004355 108.78 −0.00223 0.012391 109.62 0.0001 0.015759 110.46 0.0038660.018891 108.8 −0.00184 0.009704 109.64 0.004502 0.016945 110.480.001266 0.02082 108.82 0.000667 0.013547 109.66 −0.02 −0.00016 110.5−0.0025 0.016721 108.84 −0.00081 0.014426 109.68 0.043661 0.0421 110.52−0.00673 0.011936 108.86 −0.00124 0.012673 109.7 0.01026 0.018294 110.54−0.02095 0.000701 108.88 −0.01167 0.012171 109.72 −0.00713 0.008635110.56 −0.00927 0.002971 108.9 −0.00651 0.005464 109.74 −0.010710.010445 110.58 −0.00173 0.004945 108.92 −0.0072 0.005285 109.760.017508 0.025596 110.6 0.004059 −0.00222 108.94 0.000861 0.014206109.78 −0.00645 0.017104 110.62 0.01152 −0.00629 110.64 0.011658−0.01217 111.48 −0.00957 0.009255 112.32 −0.01174 −0.00736 110.660.019506 −0.01229 111.5 0.00548 0.017768 112.34 −0.00475 −0.00504 110.680.022104 −0.00935 111.52 −0.01385 0.003921 112.36 0.021828 0.021778110.7 0.018721 −0.01065 111.54 −0.01056 0.005973 112.38 −0.010650.004502 110.72 0.009086 −0.01367 111.56 −0.00384 0.01394 112.4 −0.01871−0.00092 110.74 −0.00058 −0.01713 111.58 −0.01418 0.000823 112.42−0.00811 0.005971 110.76 −0.01119 −0.01299 111.6 0.000128 0.011199112.44 0.017433 0.017259 110.78 0.00222 0.000703 111.62 −0.013950.004233 112.46 −0.01197 0.008293 110.8 0.010714 0.007021 111.640.002856 0.010183 112.48 −0.01705 0.002527 110.82 −0.02093 −0.00747111.66 0.010811 0.019661 112.5 −0.01034 0.01225 110.84 0.003557 0.011956111.68 −0.00989 0.00606 112.52 −0.02496 0.00409 110.86 −0.00173 0.011364111.7 −0.00492 0.011221 112.54 −0.02216 0.002684 110.88 −0.011240.006089 111.72 −0.00407 0.013282 112.56 −0.01646 −0.00091 110.9−0.01476 0.004969 111.74 0.004195 0.018405 112.58 −0.00293 −0.00126110.92 0.014183 0.021626 111.76 −0.0219 0.005153 112.6 −0.00414 −0.00906110.94 −4.4E−05 0.016399 111.78 −0.01083 0.008246 112.62 0.016701−0.00647 110.96 −0.01326 0.005051 111.8 −0.00839 0.010944 112.640.007807 −0.01077 110.98 −0.00628 0.007444 111.82 0.002997 0.010201112.66 0.00975 −0.01004 111 0.002718 0.004715 111.84 0.004185 0.01748112.68 0.018665 −0.00224 111.02 0.004194 −0.00091 111.86 0.0167190.022698 112.7 0.011331 −0.00786 111.04 0.003605 −0.0084 111.88 0.0033620.018104 112.72 −0.00835 −0.01206 111.06 0.008828 −0.01132 111.90.000533 0.017458 112.74 −0.00271 −0.00319 111.08 0.012139 −0.01184111.92 −0.02005 0.00146 112.76 0.001857 0.001638 111.1 0.000791 −0.01718111.94 −0.03067 −0.00323 112.78 0.019464 0.017116 111.12 0.001154−0.01234 111.96 −0.00076 0.018877 112.8 0.004835 0.004366 111.140.000201 −0.01274 111.98 −0.01122 0.012175 112.82 −0.0196 −0.00872111.16 0.040682 0.020824 112 0.003265 0.017306 112.84 −0.00472 0.008354111.18 0.003197 0.004108 112.02 −0.02818 −0.00079 112.86 0.0019130.014051 111.2 0.014866 0.010329 112.04 −0.01674 0.012315 112.880.014956 0.020161 111.22 0.010559 0.006824 112.06 −0.02927 0.00044 112.9−0.01775 0.000247 111.24 −0.00243 0.006253 112.08 −0.01888 0.012586112.92 −0.01571 0.005424 111.26 0.031436 0.027297 112.1 −0.017290.005078 112.94 −0.00275 0.008243 111.28 0.001321 0.011124 112.12−0.01447 0.002822 112.96 −0.00031 0.006547 111.3 0.004311 0.014182112.14 −0.00551 0.000109 112.98 0.000442 0.010156 111.32 −0.000110.01035 112.16 −0.0076 −0.01032 113 0.015333 0.014285 111.34 0.0023360.010285 112.18 0.006828 −0.0111 113.02 −0.02237 −0.00359 111.36−0.01363 0.01299 112.2 0.009259 −0.01554 113.04 0.002976 0.015847 111.38−0.00353 0.010108 112.22 0.0092 −0.01987 113.06 −0.00698 0.006044 111.40.007371 0.009028 112.24 0.020594 −0.01176 113.08 0.028104 0.034773111.42 0.010059 0.017424 112.26 0.002946 −0.01989 113.1 0.0080710.022023 111.44 −0.02126 −0.00365 112.28 0.0159 −0.00995 113.12 0.0007040.015425 111.46 −0.00838 0.006878 112.3 0.01301 0.000528 113.14 0.0188460.026526 113.16 −0.00158 0.009554 114 0.015248 0.009513 114.84 −0.02922−0.00338 113.18 −0.00792 0.007152 114.02 −0.00063 0.003426 114.86−0.01562 −0.00913 113.2 0.000825 0.016994 114.04 −0.00246 0.009008114.88 0.00142 −0.00874 113.22 0.000695 0.010121 114.06 −0.023910.002053 114.9 0.005365 −0.01099 113.24 −0.02656 0.00115 114.08 −0.00380.019147 114.92 0.007525 −0.01095 113.26 0.023904 0.029794 114.1−0.01612 0.016284 114.94 0.013741 −0.0089 113.28 −0.03 −0.006 114.12−0.03381 0.001946 114.96 0.00303 −0.00543 113.3 −0.00074 0.016641 114.14−0.01752 0.005157 114.98 0.005568 0.000261 113.32 −0.01678 0.010706114.16 −0.01076 0.006153 115 −0.01737 −0.01281 113.34 0.000781 0.017067114.18 −0.01778 −0.00941 115.02 −0.01166 −0.00669 113.36 −0.027850.001865 114.2 −0.00941 −0.01538 115.04 −0.00673 0.003316 113.38−0.02835 0.001224 114.22 −0.00269 −0.00857 115.06 −0.00604 0.00339 113.4−0.0281 0.003387 114.24 0.014161 0.001434 115.08 0.002793 0.016765113.42 −0.00698 0.017486 114.26 0.022701 0.008857 115.1 −0.00422 0.00912113.44 −0.02462 0.005697 114.28 0.00234 −0.0026 115.12 0.029091 0.030351113.46 −0.01858 0.005584 114.3 −0.02732 −0.01569 115.14 −0.010210.010405 113.48 −0.00813 0.007193 114.32 −0.00127 0.008876 115.16−0.01479 0.004536 113.5 −0.01018 0.000089 114.34 −0.00233 0.000669115.18 −0.01418 0.013757 113.52 0.006851 −0.00234 114.36 −0.005920.003912 115.2 −0.03516 0.000195 113.54 −0.00488 −0.01341 114.38 −0.00090.006057 115.22 −0.02597 0.009107 113.56 0.005681 −0.00639 114.4−0.00793 0.005211 115.24 −0.02972 0.007761 113.58 0.012402 0.00389114.42 −0.00168 0.011683 115.26 −0.0267 0.007191 113.6 −0.00928 0.002108114.44 0.000866 0.014732 115.28 −0.01963 0.006741 113.62 −0.006980.014428 114.46 0.011709 0.0197 115.3 −0.00667 0.007116 113.64 −0.030490.001799 114.48 0.000493 0.0159 115.32 −0.01628 −0.0014 113.66 −0.011970.019535 114.5 0.010365 0.020723 115.34 0.001505 0.00687 113.68 −0.011680.015001 114.52 −0.01247 0.003169 115.36 0.029066 0.012849 113.7−0.01482 0.008379 114.54 0.006943 0.016898 115.38 0.022405 0.007828113.72 −0.00412 0.004937 114.56 −0.01713 0.003394 115.4 −0.00972−0.01348 113.74 −0.00193 −0.00527 114.58 −0.0181 0.005559 115.42−0.02371 −0.014 113.76 0.007295 −0.01145 114.6 −0.01272 0.006538 115.44−0.00234 0.000688 113.78 0.009193 −0.0137 114.62 −0.02533 −0.00217115.46 −0.00356 0.001133 113.8 0.007872 −0.0128 114.64 −0.02091 0.00323115.48 0.01286 0.012723 113.82 −0.00197 −0.01554 114.66 −0.0148 0.007832115.5 −0.00086 0.005322 113.84 −0.00596 −0.01063 114.68 −0.008270.010341 115.52 −0.00709 0.002517 113.86 0.012074 0.008671 114.7 −0.00120.020374 115.54 −0.02858 −0.00978 113.88 −0.0033 0.001871 114.72−0.00443 0.017612 115.56 −0.00294 0.006817 113.9 −0.00401 0.008458114.74 −0.0114 0.016936 115.58 −0.00759 0.007778 113.92 −9.5E−050.005905 114.76 −0.01763 0.014063 115.6 0.00733 0.014095 113.94 0.0201340.024864 114.78 −0.02618 0.010446 115.62 −0.01126 0.00232 113.960.023386 0.016142 114.8 −0.01892 0.010584 115.64 −0.0196 −0.00093 113.980.007707 0.005338 114.82 −0.02255 0.005252 115.66 −0.01618 −0.00509115.68 −0.00449 0.012252 116.52 0.000129 0.01605 117.36 −0.012270.013651 115.7 −0.00639 0.013448 116.54 −0.02364 0.004833 117.38−0.01316 0.011214 115.72 −0.00095 0.011876 116.56 −0.01894 0.000501117.4 −0.02737 0.001063 115.74 −0.01181 0.011515 116.58 −0.010090.010915 117.42 −0.01725 0.011102 115.76 0.009835 0.019288 116.6−0.00361 0.014601 117.44 −0.02083 0.012708 115.78 −0.00764 0.013829116.62 −0.00017 0.012688 117.46 −0.02744 0.007306 115.8 −0.01554 0.00414116.64 −0.01199 0.003298 117.48 −0.03965 −0.00446 115.82 −0.014190.002282 116.66 −0.00421 0.009629 117.5 −0.01416 0.016204 115.84−0.00577 0.001259 116.68 −0.00668 0.004538 117.52 −0.03427 0.003661115.86 −0.00288 0.012564 116.7 −0.00819 0.011062 117.54 −0.035470.000591 115.88 0.007301 0.021897 116.72 −0.02306 0.001598 117.56−0.03475 −0.00045 115.9 0.009503 0.022772 116.74 −0.00081 0.01036 117.58−0.02219 0.001408 115.92 −0.00286 0.008301 116.76 0.003101 0.016547117.6 −0.00887 0.001999 115.94 0.018627 0.020388 116.78 0.0141710.023757 117.62 −0.00806 −0.00898 115.96 0.0089 0.017314 116.8 −0.0161−0.00113 117.64 0.000098 −0.01125 115.98 −0.00176 0.01311 116.820.007129 0.013013 117.66 0.012757 −0.01294 116 0.002824 0.010493 116.84−0.02666 −0.0068 117.68 0.014287 −0.01728 116.02 −0.0201 0.000912 116.860.014072 0.019135 117.7 0.013474 −0.01888 116.04 0.007664 0.017786116.88 −2.1E−05 0.005092 117.72 0.002099 −0.02524 116.06 0.0106430.015276 116.9 −0.00918 0.007014 117.74 0.002039 −0.0261 116.08 0.0081880.018606 116.92 −0.02245 0.001916 117.76 −0.00619 −0.02362 116.10.015788 0.018025 116.94 0.001255 0.013821 117.78 0.010354 −0.01003116.12 −0.01705 0.000792 116.96 0.007116 0.016323 117.8 −0.00926−0.01989 116.14 0.000722 0.013726 116.98 −0.02343 −0.00575 117.82−0.01482 −0.01112 116.16 −0.0028 0.012667 117 −0.01921 0.003213 117.84−0.00147 0.000988 116.18 0.013398 0.019907 117.02 −0.00847 0.009964117.86 −0.00406 0.003591 116.2 −0.02878 −0.00468 117.04 −0.0094 0.011505117.88 −0.01675 −0.00263 116.22 −0.00822 0.003935 117.06 −0.007830.010725 117.9 −0.01413 0.006744 116.24 −0.00783 0.007435 117.08 −0.00540.007852 117.92 −0.02431 −0.00116 116.26 0.00473 0.012519 117.1 0.0155830.024956 117.94 −0.01533 0.01011 116.28 −0.0004 0.008212 117.12 −0.022350.001927 117.96 −0.01729 0.010427 116.3 −0.00574 0.011773 117.14−0.01175 0.006537 117.98 −0.01411 0.013697 116.32 −0.00411 0.009648117.16 −0.00225 0.014178 118 −0.02792 0.007176 116.34 −0.01694 0.002887117.18 −0.00665 0.015866 118.02 −0.0308 0.005481 116.36 −0.01405−0.00021 117.2 −0.0061 0.016445 118.04 −0.03761 −0.00118 116.38 −0.006940.010765 117.22 −0.01037 0.013483 118.06 −0.02366 −0.0009 116.4 −0.009270.006003 117.24 0.000083 0.018578 118.08 −0.0124 −0.00158 116.42 0.000030.014622 117.26 −0.01148 0.012896 118.1 −0.00641 −0.00618 116.44−0.00682 0.00809 117.28 −0.02023 0.007741 118.12 −0.00316 −0.01559116.46 −0.00392 0.012412 117.3 −0.00162 0.017161 118.14 0.012606−0.01158 116.48 0.005112 0.017002 117.32 −0.01376 0.011954 118.160.002479 −0.0222 116.5 −0.0072 0.009519 117.34 −0.00807 0.017453 118.180.011127 −0.015 118.2 −0.00254 −0.02292 118.84 0.005075 0.013621 119.48−0.02336 −0.00179 118.22 −9.9E−05 −0.01557 118.86 −0.0195 −0.00649 119.5−0.00678 −0.00024 118.24 0.00157 −0.01289 118.88 0.023209 0.02222 119.52−0.00097 −0.00812 118.26 0.006153 −0.0058 118.9 0.015314 0.023298 119.540.015825 −0.00462 118.28 0.022332 0.011982 118.92 −0.00688 0.004848119.56 0.018466 −0.00822 118.3 −0.01499 −0.01249 118.94 −0.010620.006513 119.58 0.018802 −0.00995 118.32 0.003481 0.007818 118.960.006225 0.014126 119.6 0.014315 −0.00994 118.34 −0.02536 −0.01586118.98 −0.01323 0.006357 119.62 0.00665 −0.00816 118.36 −0.009870.005366 119 −0.01464 0.005723 119.64 −0.00584 −0.01002 118.38 0.0071520.008617 119.02 −0.01396 0.004828 119.66 0.008738 0.001698 118.4−0.02708 −0.00628 119.04 0.009927 0.020719 119.68 0.000506 −0.00251118.42 0.01761 0.020169 119.06 −0.00086 0.010196 119.7 −0.0047 0.001826118.44 0.008643 0.020609 119.08 −0.01956 0.003068 119.72 −0.003320.004063 118.46 0.003394 0.011489 119.1 −0.01526 0.006848 119.74−0.00352 0.002677 118.48 −0.00694 −0.00232 119.12 −0.00488 0.01893119.76 −0.00102 0.011956 118.5 0.013065 0.019702 119.14 0.0006930.020902 119.78 −0.00734 0.011878 118.52 −0.00151 0.006542 119.160.003719 0.014355 119.8 −0.00711 0.008634 118.54 −0.009 0.008803 119.18−0.02016 −0.00035 119.82 −0.00715 0.012202 118.56 0.002038 0.013202119.2 −0.01557 0.008493 119.84 −0.01411 0.007991 118.58 0.0116160.020439 119.22 −0.01252 0.011614 119.86 −0.02427 0.007381 118.6−0.00241 0.013868 119.24 −0.03059 0.001387 119.88 −0.01962 0.013027118.62 0.013087 0.020164 119.26 −0.01591 0.009152 119.9 −0.024210.011376 118.64 0.005878 0.014292 119.28 −0.00636 0.015349 119.92−0.02752 0.01389 118.66 −0.00471 0.006552 119.3 −0.01812 0.011047 119.94−0.02228 0.015415 118.68 0.000833 0.014114 119.32 −0.02775 0.009686119.96 −0.01885 0.008414 118.7 −0.00358 0.00867 119.34 −0.03205 0.004938119.98 −0.00649 0.009735 118.72 −0.00164 0.005902 119.36 −0.024160.012604 120 0.001124 0.008883 118.74 0.009686 0.011759 119.38 −0.031360.008209 118.76 0.002378 0.007294 119.4 −0.02603 0.01094 118.78 −0.005070.00754 119.42 −0.02574 0.011938 118.8 −0.00858 0.004964 119.44 −0.025730.010883 118.82 −0.01092 0.003122 119.46 −0.02278 0.00714

[0033] The lithium cobalt oxides of the present invention are preparedby first mixing together one or more lithium source compounds, one ormore cobalt source compounds, and one or more source compounds thatinclude the dopants A in the desired stoichiometric amounts to producelithium cobalt oxides having the formula Li_(w)Co_(1−x)A_(x)O_(2+y)wherein 0.96w≦1.05, 0≦x≦0.05, −0.02≦y≦0.02. The source compounds (rawmaterials) can be the pure elements but are typically compoundscontaining the elements such as oxides or salts thereof. For example,the source compounds are typically hydrated or anhydrous oxides,hydroxides, carbonates, nitrates, sulfates, chlorides or fluorides, butcan be any other suitable source compound that will not cause elementaldefects in the resulting lithium cobalt oxide compound. The elements forthe lithium cobalt oxide compound can each be supplied from separatesource compounds or at least two of the elements can be supplied fromthe same source compounds. In addition, the source compounds can bemixed in any desirable order.

[0034] Although the lithium cobalt oxide compounds are preferablyprepared by solid state reactions (i.e. dry mixing), it can beadvantageous to react the raw materials using wet chemistry such assol-gel type reactions or spray drying techniques, alone or incombination with solid state reactions. For example, the cobalt anddopant source compounds can be prepared as a solution in a solvent suchas water and the cobalt and dopants precipitated out of solution as anintimately mixed compound such as a hydroxide. The mixed compound canthen be blended with a lithium source compound. The reaction mixture canalso be prepared by suspending source compounds in a solution of othersource compounds and spray drying the resulting slurry to obtain anintimate mixture. Typically, the selection of reaction methods will varydepending on the raw materials used and the desired end product.Preferably, in accordance with the present invention, the lithium sourcecompound is selected from the group consisting of Li₂CO₃ and LiOH andthe cobalt source compound is selected from the group consisting ofCo₃O₄ and Co(OH)₂.

[0035] The mixture of source compounds once prepared can be reacted toform the lithium metal oxide. The source compounds are reacted byheating (i.e. firing) the source compounds in a first heating step at atemperature below about 850° C., preferably from about 500° C. to about850° C., to produce the Li_(w)Co_(1−x)A_(x)O_(2+y) compound. The sourcecompounds are heated for a period of time sufficient to react the sourcecompounds to produce a Li_(w)Co_(1−x)A_(x)O_(2+y) compound that issubstantially free of lithium and cobalt phases. Preferably, the sourcecompounds are heated for a period of time of from about 30 minutes toabout 3 hours to produce the Li_(w)Co_(1−x)A_(x)O_(2+y) compound. Thesource compounds can also be heated in the first heating step at morethan one temperature within the above temperature range and time period.For example, the source compounds can be heated for 1 hour at 600° C.and for 1 hour at 700° C. to produce the lithium cobalt oxides.Typically, the temperature and time period used in the first heatingstep is dependent on the raw material used and the desired grain sizefor the resulting lithium cobalt oxide compound. In particular, largergrain sizes (e.g. 10 microns) can require longer heating times.

[0036] Once the Li_(w)Co_(1−x)A_(x)O_(2+y) compounds are produced, thesecompounds are heated in a second heating step at a temperature fromabout 900° C. and 1000° C., preferably from about 950° C. to about 980°C., to form and enhance the hexagonal layered crystal structure of thesecompounds. The Li_(w)Co_(1−x)A_(x)O_(2+y) compound is preferably heatedin the second heating step for a period of time of from about 30 minutesto about 7 hours. The Li_(w)Co_(1−x)A_(x)O_(2+y) compound can also beheated in the second heating step at more than one temperature withinthe above range and time period. Typically, the temperature and timeperiod used for the second heating step is dependent on the grain sizeof the lithium cobalt oxide compound.

[0037] Any suitable apparatus can be used for heating or firing themixture, such as a rotary calciner, a stationary furnace or a tunnelfurnace, that uniformly heats the source compounds (first heating step)or the lithium cobalt oxide (second heating step) to produce the lithiumcobalt oxides. Preferably, a rotary calciner is used in accordance withthe invention. In addition, any suitable atmosphere such as air andother oxygen-containing atmospheres can be used in accordance with theinvention as long as the atmosphere provides the desired oxygen contentto form the lithium cobalt oxides.

[0038] Once the lithium cobalt oxide is at its final preparationtemperature, the lithium cobalt oxide is preferably cooled at a rate offrom about 8° C./min to about 140° C./min, more preferably from about10° C./min to 100° C./min. Cooling at a rate of greater than 140° C./minundesirably produces a structure with high crystalline stress and strainthat does not have the strength of lithium cobalt oxides cooled at arate of between 8° C./min and 140° C./min. Moreover, cooling at a rateof less than 8° C./min undesirably results in the formation of localizedcubic spinel-like structural phases on the surface of the crystal orwithin the crystal and thus decreased electrochemical performance. Withthe lithium cobalt oxides of the invention, the lack of localizedhetero-structural phases, e.g., cubic spinel-like phases, within thecrystal and on the crystal surface does not induce further phasetransformation that impedes the diffusion of the Li⁺ ions during thecharge and discharge cycles. Thus, the hexagonal layered compounds ofthe invention have better and more consistent electrochemicalperformance than prior art compounds that are cooled at slower rates.

[0039] The lithium cobalt oxide is preferably uniformly cooled (i.e.quenched) in accordance with the invention. In particular, the lithiumcobalt oxide material is preferably cooled at approximately the samerate. For example, the variation between the mean cooling rate and thecooling rate for any specific portion of the material should be lessthan about 10 percent. In a preferred embodiment of the invention,uniform cooling can be accomplished using a rotary calciner, or astationary furnace or tunnel furnace with smaller bed depths. Theuniformly cooled material prepared according to the invention hasgreater homogeneity and less variance in its material properties thanmaterial that is not uniformly cooled.

[0040] The present invention further includes rechargeable lithium andlithium ion secondary batteries that include a positive electrodecomprising the lithium cobalt oxides of the invention. Typically, thelithium cobalt oxide compound of the invention is combined with acarbonaceous material and a binder polymer to form a cathode. Thenegative electrode of the lithium battery can be lithium metal oralloys, or any material capable of reversibly lithiating anddelithiating at an electrochemical potential relative to lithium metalbetween about 0.0 V and 0.7 V. Examples of negative electrode materialsinclude carbonaceous materials containing H, B, Si and Sn; tin oxides;tin-silicon oxides; and composite tin alloys. The negative electrode isseparated from the positive electrode material in the cell using anelectronic insulating separator. The electrochemical cell furtherincludes an electrolyte. The electrolyte can be non-aqueous liquid, gelor solid and preferably comprises a lithium salt, e.g., LiPF₆.Electrochemical cells using the lithium cobalt oxide compounds of theinvention as positive electrode material can be combined for use inportable electronics such as cellular phones, camcorders, and laptopcomputers, and in large power applications such as for electric vehiclesand hybrid electric vehicles.

[0041] The lithium cobalt oxide compounds of the invention allow lithiumions to readily diffuse during both the charge and discharge cycles ofthe battery. In particular, in the charge cycle for these lithium cobaltoxides wherein z Li per formula unit are electrochemically removed performula unit, the lithium cobalt oxide takes the formulaLi_(w−z)Co_(1−x)A_(x)O_(2+y), wherein 0≦z≦w.

[0042] The present invention further includes a method of analyzing acompound to determine if the compound is suitable for use as the activepositive electrode material in a lithium or lithium-ion secondarybattery. The method of the invention comprises determining a principalcomponent space defined by the relationship ax_(i)+by_(i)≦c, whereinx_(i)={right arrow over (S)}_(i){right arrow over (P)}_(c1);y_(i)={right arrow over (S)}_(i){right arrow over (P)}_(c2); the vector{right arrow over (S)}_(i) is the x-ray spectrum for the compound; thevectors {right arrow over (P)}_(c1) and {right arrow over (P)}_(c2) aredetermined by measuring the x-ray powder diffraction values {right arrowover (S)}_(i) for a predetermined range of 2θ values using apredetermined step size by sampling a plurality of samples of compoundshaving the same general formula as the compound and using the regressionof {right arrow over (S)}_(i) of the sample set against predeterminedbattery performance data for the samples by incorporating the samples asthe positive electrode active material in a lithium or lithium-ionsecondary battery. The x_(i) and y_(i) values for the compounds in thesample set that have the predetermined battery performance data are thenused to determine a, b and c. The compound is analyzed by measuring thex-ray diffraction spectra for the compound to obtain x and y values anddetermining whether the x and y values meet the relationshipax_(i)+by_(i)≦c. If the x and y values meet this relationship, thecompound will possess the battery performance and x-ray diffractionspectra suitable for use as the active positive electrode material (asdefined by the predetermined battery performance values).

[0043] In accordance with the method of analysis described in accordancewith the invention, it is important that the compounds in the sample sethave the same general formula as the compound being tested. In addition,it is important that the compounds be tested using the same conditionsto provide consistent and reliable results. The positive electrodeactive materials tested using the method of the invention can be any ofthose known in the art and are preferably lithiated. Preferably, thecompound is a compound selected from the group consisting of doped andundoped lithium nickel oxides, lithium cobalt oxides and lithiummanganese oxides, and more preferably it is lithium cobalt oxide asdiscussed above. Different battery performance properties (e.g. fade,specific capacity, and the like), and different thresholds for theseproperties can be used to determine the principal component space.Preferably, the samples that are used to determine the principalcomponent space are selected based on meeting a threshold predeterminedcapacity fade after a predetermined number of cycles under predeterminedcycling conditions. For example, as discussed above, the predeterminedrange of 2θ values can be between 15° and 120° using CuKα rays, thepredetermined step size can be 0.02°, and the predetermined capacityfade after 50 cycles of a lithium coin cell that includes a lithiumnegative electrode and the lithium cobalt oxide as the positiveelectrode material and that is cycled between 3.0 and 4.3V at a constantcurrent of C/3 during both charge and discharge cycles can be less thanor equal to 15%. More preferably, the principal component space isdefined by the relationship x_(i)+0.77y_(i)≦−6. Although differentmethods can be used to determine the regression of {right arrow over(S)}_(i) of the sample set, the regression is preferably determinedusing a partial least squares regression method as discussed above.

[0044] The present invention will now be further demonstrated by thefollowing non-limiting examples.

EXAMPLES

[0045] Sample Preparation

[0046] Stoichiometric amounts of Li2CO3 and Co3O4 with about 2 molarpercent in lithium excess were thoroughly mixed and then fired in air asfollows:

[0047] Sample S1 was heated at a rate of about 18° C./min from roomtemperature to 750° C., held at 750° C. for 1 hour, then heated to 950°C. in about 10 minutes, and held at 950° C. for 4 hours, followed by arapid cooling to room temperature in about 10 minutes.

[0048] Sample S2 was heated at a rate of about 18° C./min from roomtemperature to 800° C., held at 800° C. for 1 hour, then heated to 975°C. in about 10 minutes, and held at 975° C. for 4 hours, followed by arapid cooling to room temperature in about 10 minutes.

[0049] Sample S3 was heated at a rate of about 5° C./min from roomtemperature to 800° C., held at 800° C. for 3 hour, then heated to 975°C. in about 1 hour, and held at 975° C. for 9 hours, followed by acooling to room temperature at a rate of about 5° C./min.

[0050] Sample S4 was heated at a rate of about 25° C./min from roomtemperature to 800° C., held at 800° C. for 30 min, then heated to 975°C. in about 10 min, and held at 975° C. for 2 hours, followed by a rapidcooling to room temperature in about 30 minutes.

[0051] Comparative sample CS1 was heated at a rate of 3.75° C./min fromroom temperature to 950° C., held at 950° C. for 5 hours, followed by acooling to room temperature at a rate of 3.75° C./min.

[0052] Coin Cell Testing

[0053] NRC 2325 coin cell hardware and Celgard 3501 separators wereused. The electrolyte was 1M LiPF₆ in a 50:50 mixture of ethylenecarbonate and dimethyl carbonate solvents. The positive electrodeconsisted of about 85% active material (by weight), 10% Super S™ carbonblack and 5% polyvinylidene fluoride (PVDF) as a binder polymer, coatedon aluminum foil. The negative electrode was metallic lithium foil. Thecell was cycled between 3.0 and 4.3V at a constant current of C/3 (3hours for complete charge or discharge) during both the charge anddischarge cycles.

[0054] X-ray Diffraction

[0055] A Rigaku RINT-2000 unit that included a graphite monochrometerand a rotating copper anode x-ray source was used. The current and thevoltage of the x-ray source were 150 mA and 50 kV, respectively, duringoperation. The anti-scattering slits and the anti-divergence slits wereboth set at 0.50. The x-ray diffraction scan was carried out between 15°and 120° 2θ at a step size of 0.02° and the counting time per step was0.6 seconds.

[0056] Samples S1, S2, S3 and S4, and Comparative Sample CS1, weretested in the Li coin cells described above, and the capacity fade after50 cycles is provided in Table 2. The x-ray diffraction spectra werealso obtained as described above. Their x and y values were calculatedas described above with respect to the preferred embodiment of theinvention and are also provided in Table 2.

[0057] In addition to the above samples, commercial samples C1, C2, C3and C4 were also tested in the Li coin cells described above and theirx-ray diffraction spectra were obtained the same way as samples S1, S2,S3, S4 and CS 1. The capacity fade values after 50 cycles, as well asthe x and y values are also provided for these commercial samples inTable 2. TABLE 2 Capacity fade after samples x y 50 cycles S1 −3.22−11.05  4% S2 −18.27 10.74  7% S3 14.55 −27.76 15% S4 −1.14 −14.71  4%CS1  21.53 −18.42 41% C1 14.46 −21.94 20% C2 8.86 −16.41 15% C3 11.91−17.90 24% C4 28.51 −31.23 32%

[0058]FIG. 1 illustrates the positions of samples S1, S2, S3, and S4;comparative sample CS1; and commercial samples C1, C2, C3 and C4, in aprincipal component space as defined by the axes {right arrow over(P)}_(c1) and {right arrow over (P)}_(c2). The dotted line in FIG. 1represents the equation x+0.77y=−6 in accordance with the preferredembodiment of the invention described above. As illustrated in FIG. 1,the samples prepared in accordance with the invention are on the left ofthe dotted line and the comparative and commercial samples are on theright of the dotted line.

[0059]FIG. 2 illustrates the capacity fade after 50 cycles versusx+0.77y. The dotted line in FIG. 2 defines the principal component spaceof the samples of the invention having the desired x-ray powderdiffraction values and a fade of less than or equal to 15% in accordancewith the preferred embodiment of the invention discussed above. Inparticular, the samples according to the invention S 1, S2, S3 and S4fall within in the principal component space (the box in the lower leftportion of the graph) while the comparative sample and commercialexamples do not. This demonstrates that the samples according to theinvention have the capacity fade and the x-ray diffraction spectra thatmeet the equation x_(i)+0.77y_(i)≦−6.

[0060] As shown above, the lithium cobalt oxides of the invention havegood cycleability properties including good initial specific capacitiesand capacity fades and thus are desirable for use in rechargeablelithium and lithium-ion batteries. In addition, the lithium cobaltoxides of the present invention can be produced quickly in less than 10hours and thus can be produced at a rate desired in the art.

[0061] It is understood that upon reading the above description of thepresent invention and studying the accompanying drawings, one skilled inthe art could make changes and variations therefrom. These changes andvariations are included in the spirit and scope of the followingappended claims.

That which is claimed:
 1. A method of preparing a lithium cobalt oxideLi_(w)Co_(1−x)A_(x)O_(2+y) having a hexagonal layered crystal structurewherein 0.96≦w≦1.05, 0≦x≦0.05, −0.02≦y≦0.02 and A is one or moredopants, comprising the steps of: heating a lithium source compound, acobalt source compound, and optionally one or more source compoundscontaining dopants A at a temperature below about 850° C. to produceLi_(w)Co_(1−x)A_(x)O_(2+y); and heating the Li_(w)Co_(1−x)A_(x)O_(2+y)compound at a temperature from about 900° C. to 1000° C. to refine thehexagonal layered crystal structure.
 2. The method according to claim 1,wherein said first heating step comprises heating the source compoundsat a temperature of from about 500° C. to about 850° C.
 3. The methodaccording to claim 1, wherein said second heating step comprises heatingthe Li_(w)Co_(1−x)A_(x)O_(2+y) compound at a temperature from about 950°C. to about 980° C.
 4. The method according to claim 1, wherein saidfirst heating step comprises heating the source compounds at more thanone firing temperature from about 500° C. to about 850° C.
 5. The methodaccording to claim 1, wherein said second heating step comprises heatingthe Li_(w)Co_(1−x)A_(x)O_(2+y) at more than one firing temperature fromabout 900° C. to about 1000° C.
 6. The method according to claim 1,wherein said first heating step comprises heating the source compoundsfor a period of time of from about 30 minutes to about 3 hours.
 7. Themethod according to claim 1, wherein said second heating step comprisesheating the Li_(w)Co_(1−x)A_(x)O_(2+y) compound for a period of time offrom about 30 minutes to about 7 hours.
 8. The method according to claim1, wherein said heating steps comprise heating the source compounds andthe Li_(w)Co_(1−x)A_(x)O_(2+y) compound in a rotary calciner.
 9. Themethod according to claim 1, wherein 0.98≦w≦1.02.
 10. The methodaccording to claim 1, wherein 0≦x≦0.02.
 11. The method according toclaim 1, wherein the lithium source compound is selected from the groupconsisting of Li₂CO₃ and LiOH and a cobalt source compound selected fromthe group consisting of Co₃O₄ and Co(OH)₂.
 12. The method according toclaim 1, wherein said method further comprises the step of cooling theLi_(w)Co_(1−x)A_(x)O_(2+y) compound at a rate from 8° C./min to 140°C./min after said heating steps.
 13. The method according to claim 1,wherein said method further comprises the step of cooling theLi_(w)Co_(1−x)A_(x)O_(2+y) compound at a rate from 10° C./min to 100°C./min after said heating steps.
 14. The method according to claim 1,wherein the dopants A are one or more elements other than Co selectedfrom the group consisting of Ni, Mn, Ti, Zr, V, Mo, Mg, Ca, Sr, Ba, Al,Ga, Si, Ge, Sn, and combinations thereof.
 15. A lithium cobalt oxideprepared according to the method of claim
 1. 16. A method of preparing alithium cobalt oxide Li_(w)Co_(1−x)A_(x)O_(2+y) having a hexagonallayered crystal structure wherein 0.96≦w≦1.05, 0≦x≦0.05, −0.02≦y≦0.02and A is one or more dopants other than Co selected from the groupconsisting of Ni, Mn, Ti, Zr, V, Mo, Mg, Ca, Sr, Ba, Al, Ga, Si, Ge, Sn,and combinations thereof, comprising the steps of: heating a lithiumsource compound, a cobalt source compound, and optionally one or moresource compounds containing dopants A at a temperature from about 500°C. to about 850° C. for a period of time of from about 30 minutes toabout 3 hours to produce Li_(w)Co_(1−x)A_(x)O_(2+y); heating theLi_(w)Co_(1−x)A_(x)O_(2+y) compound at a temperature from about 900° C.to 1000° C. for a period of time of from about 30 minutes to about 7hours to refine the hexagonal layered crystal structure; and cooling theLi_(w)Co_(1−x)A_(x)O_(2+y) compound at a rate from 8° C./min to 140°C./min after said heating steps.
 17. A lithium cobalt oxide compound(Li_(w)Co_(1−x)A_(x)O_(2+y)) having a hexagonal layered crystalstructure and wherein 0.96≦w≦1.05, 0≦x≦0.05, −0.02≦y≦0.02 and A is oneor more dopants, said lithium cobalt oxide having a position within theprincipal component space defined by the following relationship: ax _(i)+by _(i) ≦c wherein x_(i)={right arrow over (S)}_(i){right arrow over(P)}_(c1); y_(i)={right arrow over (S)}_(i){right arrow over (P)}_(c2);the vector {right arrow over (S)}_(i) is the x-ray spectrum for theLi_(w)Co_(1−x)A_(x)O_(2+y) compound; the vectors {right arrow over(P)}_(c1) and {right arrow over (P)}_(c2) are determined by measuringthe x-ray powder diffraction values {right arrow over (S)}_(i) between15° and 120° using a 0.02° step size and CuKα rays for a large sampleset of lithium cobalt oxides and using the regression of {right arrowover (S)}_(i) of the sample set against the capacity fade after 50cycles of a lithium coin cell that includes a lithium negative electrodeand the lithium cobalt oxide as the positive electrode material and thatis cycled between 3.0 and 4.3V at a constant current of C/3 during bothcharge and discharge cycles; and the values a, b and c are determined byusing only the x_(i) and y_(i) values for Li_(w)Co_(1−x)A_(x)O_(2+y)compounds in the sample set that have a capacity fade after 50 cycles ofless than or equal to 15%.
 18. The lithium cobalt oxide according toclaim 17, wherein 0.98≦w≦1.02.
 19. The lithium cobalt oxide according toclaim 17, wherein 0≦x≦0.02.
 20. The lithium cobalt oxide according toclaim 17, wherein the capacity fade of a lithium coin cell having alithium negative electrode and using the lithium cobalt oxide as thepositive electrode material when cycled between 3.0 and 4.3V at aconstant current of C/3 during both charge and discharge cycles after 50charge/discharge cycles is less than or equal to 15%.
 21. The lithiumcobalt oxide according to claim 17, wherein the capacity fade of alithium coin cell having a lithium negative electrode and using thelithium cobalt oxide as the positive electrode material when cycledbetween 3.0 and 4.3V at a constant current of C/3 during both charge anddischarge cycles after 50 charge/discharge cycles is less than or equalto 10%.
 22. The lithium cobalt oxide according to claim 17, wherein theinitial specific discharge capacity is greater than or equal to 154mAh/g.
 23. A rechargeable lithium or lithium-ion secondary batterycomprising a positive electrode, a negative electrode and anelectrolyte, the positive electrode of said battery including thecompound of claim
 17. 24. A lithium cobalt oxide compound(Li_(w)Co_(1−x)A_(x)O_(2+y)) having a hexagonal layered crystalstructure and wherein 0.96≦w≦1.05, 0≦x≦0.05, −0.02≦y≦0.02 and A is oneor more dopants, said lithium cobalt oxide having a position within theprincipal component space defined by the following relationship: x_(i)+0.77y _(i)≦−6 wherein x_(i)={right arrow over (S)}_(i){right arrowover (P)}_(c1); y_(i)={right arrow over (S)}_(i){right arrow over(P)}_(c2); {right arrow over (S)}_(i) is the x-ray spectrum for theLi_(w)Co_(1−x)A_(x)O_(2+y) compound; {right arrow over (P)}_(c1) and{right arrow over (P)}_(c2) are defined by the coefficients provided inTable 1; and 2θ is the scattering angle of the x-ray powder diffractionmeasurements using CuKα rays.
 25. The lithium cobalt oxide according toclaim 24, wherein 0.98≦w≦1.02.
 26. The lithium cobalt oxide according toclaim 24, wherein 0≦x≦0.02.
 27. The lithium cobalt oxide according toclaim 24, wherein the capacity fade of a lithium coin cell having alithium negative electrode and using the lithium cobalt oxide as thepositive electrode material when cycled between 3.0 and 4.3V at aconstant current of C/3 during both charge and discharge cycles after 50charge/discharge cycles is less than or equal to 15%.
 28. The lithiumcobalt oxide according to claim 24, wherein the capacity fade of alithium coin cell having a lithium negative electrode and using thelithium cobalt oxide as the positive electrode material when cycledbetween 3.0 and 4.3V at a constant current of C/3 during both charge anddischarge cycles after 50 charge/discharge cycles is less than or equalto 10%.
 29. The lithium cobalt oxide according to claim 24, wherein theinitial specific discharge capacity is greater than or equal to 154mAh/g.
 30. A rechargeable lithium or lithium-ion secondary batterycomprising a positive electrode, a negative electrode and anelectrolyte, the positive electrode of said battery including thecompound of claim
 24. 31. A method of analyzing a compound to determineif the compound is suitable for use as the active positive electrodematerial in a lithium or lithium-ion secondary battery, the methodcomprising the steps of: determining a principal component space definedby the following relationship: ax _(i) +by _(i) ≦c wherein x_(i)={rightarrow over (S)}_(i){right arrow over (P)}_(c1); y_(i)={right arrow over(S)}_(i){right arrow over (P)}_(c2); the vector {right arrow over(S)}_(i) is the x-ray spectrum for the compound; the vectors {rightarrow over (P)}_(C1) and {right arrow over (P)}C2 are determined bymeasuring the x-ray powder diffraction values {right arrow over (S)}_(i)for a predetermined range of 2θ values using a predetermined step sizeby sampling a plurality of samples of compounds having the same generalformula as the compound and using the regression of {right arrow over(S)}_(i) of the sample set against predetermined battery performancedata for the samples by incorporating the samples as the positiveelectrode active material in a lithium or lithium-ion secondary battery,and using the x_(i) and y_(i) values for the compounds in the sample setthat have the predetermined battery performance data to determine a, band c; and measuring the x-ray diffraction spectra for the compound toobtain x and y values and determining whether the x and y values meetthe relationship ax_(i)+by_(i)≦c and thus whether the compound possessesthe battery performance and the x-ray diffraction spectra suitable foruse as the active positive electrode material.
 32. The method accordingto claim 31, wherein the compound is lithiated.
 33. The method accordingto claim 32, wherein the compound is a compound selected from the groupconsisting of doped and undoped lithium nickel oxides, lithium cobaltoxides and lithium manganese oxides.
 34. The method according to claim33, wherein the compound is lithium cobalt oxide.
 35. The methodaccording to claim 31, wherein the battery performance data includes apredetermined capacity fade after a predetermined number of cycles underpredetermined cycling conditions.
 36. The method according to claim 35,wherein the predetermined range of 2θ values is between 15° and 120°using CuKα rays, the predetermined step size is 0.02°, and thepredetermined capacity fade after 50 cycles of a lithium coin cell thatincludes a lithium negative electrode and the lithium cobalt oxide asthe positive electrode material and that is cycled between 3.0 and 4.3Vat a constant current of C/3 during both charge and discharge cycles ofless than or equal to 15%.
 37. The method according to claim 36, whereinthe principal component space is defined by the relationshipx_(i)+0.77y_(i)≦−6.
 38. The method according to claim 31, wherein theregression of {right arrow over (S)}_(i) of the sample set is determinedusing a partial least squares regression method.